Diseases
Diseases
Chronic Obstructive Pulmonary Disease (COPD)
What Is COPD?
COPD, or chronic obstructive pulmonary (PULL-mun-ary) disease, is a progressive disease that makes it hard to breathe. “Progressive” means the disease gets worse over time. COPD can cause coughing that produces large amounts of mucus (a slimy substance), wheezing, shortness of breath, chest tightness, and other symptoms. Cigarette smoking is the leading cause of COPD. Most people who have COPD smoke or used to smoke. Long-term exposure to other lung irritants—such as air pollution, chemical fumes, or dust—also may contribute to COPD.
Overview
To understand COPD, it helps to understand how the lungs work. The air that you breathe goes down your windpipe into tubes in your lungs called bronchial (BRONG-ke-al) tubes or airways. Within the lungs, your bronchial tubes branch into thousands of smaller, thinner tubes called bronchioles (BRONG-ke-ols). These tubes end in bunches of tiny round air sacs called alveoli (al-VEE-uhl-eye). Small blood vessels called capillaries (KAP-ih-lare-ees) run through the walls of the air sacs. When air reaches the air sacs, oxygen passes through the air sac walls into the blood in the capillaries. At the same time, carbon dioxide (a waste gas) moves from the capillaries into the air sacs. This process is called gas exchange. The airways and air sacs are elastic (stretchy). When you breathe in, each air sac fills up with air like a small balloon. When you breathe out, the air sacs deflate and the air goes out.
In COPD, less air flows in and out of the airways because of one or more of the following:
•The airways and air sacs lose their elastic quality.
•The walls between many of the air sacs are destroyed.
•The walls of the airways become thick and inflamed.
•The airways make more mucus than usual, which can clog them.
Normal Lungs and Lungs With COPD
Figure A shows the location of the lungs and airways in the body. The inset image shows a detailed cross-section of the bronchioles and alveoli. Figure B shows lungs damaged by COPD. The inset image shows a detailed cross-section of the damaged bronchioles and alveolar walls.
In the United States, the term “COPD” includes two main conditions—emphysema (em-fih-SE-ma) and chronic bronchitis (bron-KI-tis). (Note: The Health Topics article about bronchitis discusses both acute and chronic bronchitis.) In emphysema, the walls between many of the air sacs are damaged. As a result, the air sacs lose their shape and become floppy. This damage also can destroy the walls of the air sacs, leading to fewer and larger air sacs instead of many tiny ones. If this happens, the amount of gas exchange in the lungs is reduced. In chronic bronchitis, the lining of the airways is constantly irritated and inflamed. This causes the lining to thicken. Lots of thick mucus forms in the airways, making it hard to breathe. Most people who have COPD have both emphysema and chronic bronchitis. Thus, the general term “COPD” is more accurate.
Outlook
COPD is a major cause of disability, and it’s the third leading cause of death in the United States. Currently, millions of people are diagnosed with COPD. Many more people may have the disease and not even know it. COPD develops slowly. Symptoms often worsen over time and can limit your ability to do routine activities. Severe COPD may prevent you from doing even basic activities like walking, cooking, or taking care of yourself. Most of the time, COPD is diagnosed in middle-aged or older adults. The disease isn’t passed from person to person—you can’t catch it from someone else. COPD has no cure yet, and doctors don’t know how to reverse the damage to the airways and lungs. However, treatments and lifestyle changes can help you feel better, stay more active, and slow the progress of the disease.
Source: National Heart Lung and Blood Institute
Other Names for COPD
•Chronic bronchitis
•Chronic obstructive airway disease
•Chronic obstructive lung disease
•Emphysema
Source: National Heart Lung and Blood Institute
What Causes COPD?
Long-term exposure to lung irritants that damage the lungs and the airways usually is the cause of COPD. In the United States, the most common irritant that causes COPD is cigarette smoke. Pipe, cigar, and other types of tobacco smoke also can cause COPD, especially if the smoke is inhaled. Breathing in secondhand smoke, air pollution, or chemical fumes or dust from the environment or workplace also can contribute to COPD. (Secondhand smoke is smoke in the air from other people smoking.) Rarely, a genetic condition called alpha-1 antitrypsin deficiency may play a role in causing COPD. People who have this condition have low levels of alpha-1 antitrypsin (AAT)—a protein made in the liver. Having a low level of the AAT protein can lead to lung damage and COPD if you’re exposed to smoke or other lung irritants. If you have this condition and smoke, COPD can worsen very quickly. Although uncommon, some people who have asthma can develop COPD. Asthma is a chronic (long-term) lung disease that inflames and narrows the airways. Treatment usually can reverse the inflammation and narrowing. However, if not, COPD can develop.
Source: National Heart Lung and Blood Institute
Who Is at Risk for COPD?
The main risk factor for COPD is smoking. Most people who have COPD smoke or used to smoke. People who have a family history of COPD are more likely to develop the disease if they smoke. Long-term exposure to other lung irritants also is a risk factor for COPD. Examples of other lung irritants include secondhand smoke, air pollution, and chemical fumes and dust from the environment or workplace. (Secondhand smoke is smoke in the air from other people smoking.) Most people who have COPD are at least 40 years old when symptoms begin. Although uncommon, people younger than 40 can have COPD. For example, this may happen if a person has alpha-1 antitrypsin deficiency, a genetic condition.
Source: National Heart Lung and Blood Institute
What Are the Signs and Symptoms of COPD?
At first, COPD may cause no symptoms or only mild symptoms. As the disease gets worse, symptoms usually become more severe. Common signs and symptoms of COPD include:
•An ongoing cough or a cough that produces a lot of mucus (often called “smoker’s cough”)
•Shortness of breath, especially with physical activity
•Wheezing (a whistling or squeaky sound when you breathe)
•Chest tightness
If you have COPD, you also may have colds or the flu (influenza) often. Not everyone who has the symptoms above has COPD. Likewise, not everyone who has COPD has these symptoms. Some of the symptoms of COPD are similar to the symptoms of other diseases and conditions. Your doctor can find out whether you have COPD. If your symptoms are mild, you may not notice them, or you may adjust your lifestyle to make breathing easier. For example, you may take the elevator instead of the stairs. Over time, symptoms may become severe enough to see a doctor. For example, you may get short of breath during physical exertion. The severity of your symptoms will depend on how much lung damage you have. If you keep smoking, the damage will occur faster than if you stop smoking. Severe COPD can cause other symptoms, such as swelling in your ankles, feet, or legs; weight loss; and lower muscle endurance. Some severe symptoms may require treatment in a hospital. You—with the help of family members or friends, if you’re unable—should seek emergency care if:
•You’re having a hard time catching your breath or talking.
•Your lips or fingernails turn blue or gray. (This is a sign of a low oxygen level in your blood.)
•You’re not mentally alert.
•Your heartbeat is very fast.
•The recommended treatment for symptoms that are getting worse isn’t working.
Source: National Heart Lung and Blood Institute
How Is COPD Diagnosed?
Your doctor will diagnose COPD based on your signs and symptoms, your medical and family histories, and test results. Your doctor may ask whether you smoke or have had contact with lung irritants, such as secondhand smoke, air pollution, chemical fumes, or dust. If you have an ongoing cough, let your doctor know how long you’ve had it, how much you cough, and how much mucus comes up when you cough. Also, let your doctor know whether you have a family history of COPD. Your doctor will examine you and use a stethoscope to listen for wheezing or other abnormal chest sounds. He or she also may recommend one or more tests to diagnose COPD.
Lung Function Tests
Lung function tests measure how much air you can breathe in and out, how fast you can breathe air out, and how well your lungs deliver oxygen to your blood.The main test for COPD is spirometry (spi-ROM-eh-tre). Other lung function tests, such as a lung diffusion capacity test, also might be used. (For more information, go to the Health Topics Lung Function Tests article.)
Spirometry
During this painless test, a technician will ask you to take a deep breath in. Then, you’ll blow as hard as you can into a tube connected to a small machine. The machine is called a spirometer.The machine measures how much air you breathe out. It also measures how fast you can blow air out.
Spirometry
The image shows how spirometry is done. The patient takes a deep breath and then blows hard into a tube connected to a spirometer. The spirometer measures the amount of air breathed out. It also measures how fast the air is blown out.Your doctor may have you inhale medicine that helps open your airways and then blow into the tube again. He or she can then compare your test results before and after taking the medicine.Spirometry can detect COPD before symptoms develop. Your doctor also might use the test results to find out how severe your COPD is and to help set your treatment goals.The test results also may help find out whether another condition, such as asthma or heart failure, is causing your symptoms.
Other Tests
Your doctor may recommend other tests, such as:
•A chest x ray or chest CT scan. These tests create pictures of the structures inside your chest, such as your heart, lungs, and blood vessels. The pictures can show signs of COPD. They also may show whether another condition, such as heart failure, is causing your symptoms.
•An arterial blood gas test. This blood test measures the oxygen level in your blood using a sample of blood taken from an artery. The results from this test can show how severe your COPD is and whether you need oxygen therapy.
Source: National Heart Lung and Blood Institute
How Is COPD Treated?
COPD has no cure yet. However, lifestyle changes and treatments can help you feel better, stay more active, and slow the progress of the disease. The goals of COPD treatment include:
•Relieving your symptoms
•Slowing the progress of the disease
•Improving your exercise tolerance (your ability to stay active)
•Preventing and treating complications
•Improving your overall health
To assist with your treatment, your family doctor may advise you to see a pulmonologist. This is a doctor who specializes in treating lung disorders.
Lifestyle ChangesQuit Smoking and Avoid Lung Irritants
Quitting smoking is the most important step you can take to treat COPD. Talk with your doctor about programs and products that can help you quit.If you have trouble quitting smoking on your own, consider joining a support group. Many hospitals, workplaces, and community groups offer classes to help people quit smoking. Ask your family members and friends to support you in your efforts to quit.Also, try to avoid secondhand smoke and places with dust, fumes, or other toxic substances that you may inhale.For more information about how to quit smoking, go to the Health Topics Smoking and Your Heart article and the National Heart, Lung, and Blood Institute’s “Your Guide to a Healthy Heart.” Although these resources focus on heart health, they include basic information about how to quit smoking.
Other Lifestyle Changes
If you have COPD, you may have trouble eating enough because of your symptoms, such as shortness of breath and fatigue. (This issue is more common with severe disease.)As a result, you may not get all of the calories and nutrients you need, which can worsen your symptoms and raise your risk for infections.Talk with your doctor about following an eating plan that will meet your nutritional needs. Your doctor may suggest eating smaller, more frequent meals; resting before eating; and taking vitamins or nutritional supplements.Also, talk with your doctor about what types of activity are safe for you. You may find it hard to be active with your symptoms. However, physical activity can strengthen the muscles that help you breathe and improve your overall wellness.
MedicinesBronchodilators
Bronchodilators relax the muscles around your airways. This helps open your airways and makes breathing easier.
Depending on the severity of your COPD, your doctor may prescribe short-acting or long-acting bronchodilators. Short-acting bronchodilators last about 4–6 hours and should be used only when needed. Long-acting bronchodilators last about 12 hours or more and are used every day. Most bronchodilators are taken using a device called an inhaler. This device allows the medicine to go straight to your lungs. Not all inhalers are used the same way. Ask your health care team to show you the correct way to use your inhaler. If your COPD is mild, your doctor may only prescribe a short-acting inhaled bronchodilator. In this case, you may use the medicine only when symptoms occur. If your COPD is moderate or severe, your doctor may prescribe regular treatment with short- and long-acting bronchodilators.
Inhaled Glucocorticosteroids (Steroids)
Doctors use inhaled steroids to treat people whose COPD symptoms flare up or worsen. These medicines help reduce airway inflammation.Your doctor may ask you to try inhaled steroids for a trial period of 6 weeks to 3 months to see whether the medicine helps relieve your breathing problems.
VaccinesFlu Shots
The flu (influenza) can cause serious problems for people who have COPD. Flu shots can reduce your risk of getting the flu. Talk with your doctor about getting a yearly flu shot.
Pneumococcal Vaccine
This vaccine lowers your risk for pneumococcal pneumonia (NU-mo-KOK-al nu-MO-ne-ah) and its complications. People who have COPD are at higher risk for pneumonia than people who don’t have COPD. Talk with your doctor about whether you should get this vaccine.
Pulmonary Rehabilitation
Pulmonary rehabilitation (rehab) is a broad program that helps improve the well-being of people who have chronic (ongoing) breathing problems.Rehab may include an exercise program, disease management training, and nutritional and psychological counseling. The program’s goal is to help you stay active and carry out your daily activities.Your rehab team may include doctors, nurses, physical therapists, respiratory therapists, exercise specialists, and dietitians. These health professionals will create a program that meets your needs.
Oxygen Therapy
If you have severe COPD and low levels of oxygen in your blood, oxygen therapy can help you breathe better. For this treatment, you’re given oxygen through nasal prongs or a mask.You may need extra oxygen all the time or only at certain times. For some people who have severe COPD, using extra oxygen for most of the day can help them:
• Do tasks or activities, while having fewer symptoms
• Protect their hearts and other organs from damage
• Sleep more during the night and improve alertness during the day
• Live longer
Surgery
Surgery may benefit some people who have COPD. Surgery usually is a last resort for people who have severe symptoms that have not improved from taking medicines.Surgeries for people who have COPD that’s mainly related to emphysema include bullectomy (bul-EK-toe-me) and lung volume reduction surgery (LVRS). A lung transplant might be an option for people who have very severe COPD.
Bullectomy
When the walls of the air sacs are destroyed, larger air spaces called bullae (BUL-e) form. These air spaces can become so large that they interfere with breathing. In a bullectomy, doctors remove one or more very large bullae from the lungs.
Lung Volume Reduction Surgery
In LVRS, surgeons remove damaged tissue from the lungs. This helps the lungs work better. In carefully selected patients, LVRS can improve breathing and quality of life.
Lung Transplant
During a lung transplant, your damaged lung is removed and replaced with a healthy lung from a deceased donor.A lung transplant can improve your lung function and quality of life. However, lung transplants have many risks, such as infections. The surgery can cause death if the body rejects the transplanted lung.If you have very severe COPD, talk with your doctor about whether a lung transplant is an option. Ask your doctor about the benefits and risks of this type of surgery.
Managing Complications
COPD symptoms usually worsen slowly over time. However, they can worsen suddenly. For instance, a cold, the flu, or a lung infection may cause your symptoms to quickly worsen. You may have a much harder time catching your breath. You also may have chest tightness, more coughing, changes in the color or amount of your sputum (spit), and a fever.Call your doctor right away if your symptoms worsen suddenly. He or she may prescribe antibiotics to treat the infection and other medicines, such as bronchodilators and inhaled steroids, to help you breathe.Some severe symptoms may require treatment in a hospital. For more information, go to “What Are the Signs and Symptoms of COPD?”
Source: National Heart Lung and Blood Institute
How Can COPD Be Prevented?
You can take steps to prevent COPD before it starts. If you already have COPD, you can take steps to prevent complications and slow the progress of the disease.
Prevent COPD Before It Starts
The best way to prevent COPD is to not start smoking or to quit smoking. Smoking is the leading cause of COPD. If you smoke, talk with your doctor about programs and products that can help you quit.If you have trouble quitting smoking on your own, consider joining a support group. Many hospitals, workplaces, and community groups offer classes to help people quit smoking. Ask your family members and friends to support you in your efforts to quit.Also, try to avoid lung irritants that can contribute to COPD. Examples include secondhand smoke, air pollution, chemical fumes, and dust. (Secondhand smoke is smoke in the air from other people smoking.)For more information about how to quit smoking, go to the Health Topics Smoking and Your Heart article and the National Heart, Lung, and Blood Institute’s “Your Guide to a Healthy Heart.” Although these resources focus on heart health, they include basic information about how to quit smoking.
Prevent Complications and Slow the Progress of COPD
If you have COPD, the most important step you can take is to quit smoking. Quitting can help prevent complications and slow the progress of the disease. You also should avoid exposure to the lung irritants mentioned above.Follow your treatments for COPD exactly as your doctor prescribes. They can help you breathe easier, stay more active, and avoid or manage severe symptoms.Talk with your doctor about whether and when you should get flu (influenza) and pneumonia vaccines. These vaccines can lower your chances of getting these illnesses, which are major health risks for people who have COPD.
Source: National Heart Lung and Blood Institute
Living With COPD
COPD has no cure yet. However, you can take steps to manage your symptoms and slow the progress of the disease. You can:
•Avoid lung irritants
•Get ongoing care
•Manage the disease and its symptoms
•Prepare for emergencies
Avoid Lung Irritants
If you smoke, quit. Smoking is the leading cause of COPD. Talk with your doctor about programs and products that can help you quit.If you have trouble quitting smoking on your own, consider joining a support group. Many hospitals, workplaces, and community groups offer classes to help people quit smoking. Ask your family members and friends to support you in your efforts to quit.For more information about how to quit smoking, go to the Health Topics Smoking and Your Heart article and the National Heart, Lung, and Blood Institute’s “Your Guide to a Healthy Heart.” Although these resources focus on heart health, they include basic information about how to quit smoking.Also, try to avoid lung irritants that can contribute to COPD. Examples include secondhand smoke, air pollution, chemical fumes, and dust. (Secondhand smoke is smoke in the air from other people smoking.)Keep these irritants out of your home. If your home is painted or sprayed for insects, have it done when you can stay away for a while.Keep your windows closed and stay at home (if possible) when there’s a lot of air pollution or dust outside.
Get Ongoing Care
If you have COPD, it’s important to get ongoing medical care. Take all of your medicines as your doctor prescribes. Make sure to refill your prescriptions before they run out. Bring a list of all the medicines you’re taking when you have medical checkups.Talk with your doctor about whether and when you should get flu (influenza) and pneumonia vaccines. Also, ask him or her about other diseases for which COPD may increase your risk, such as heart disease, lung cancer, and pneumonia.
Manage COPD and Its Symptoms
You can do things to help manage COPD and its symptoms. For example:
•Do activities slowly.
•Put items that you need often in one place that’s easy to reach.
•Find very simple ways to cook, clean, and do other chores. For example, you might want to use a small table or cart with wheels to move things around and a pole or tongs with long handles to reach things.
•Ask for help moving things around in your house so that you won’t need to climb stairs as often.
•Keep your clothes loose, and wear clothes and shoes that are easy to put on and take off.Depending on how severe your disease is, you may want to ask your family and friends for help with daily tasks.
Prepare for Emergencies
If you have COPD, know when and where to seek help for your symptoms. You should get emergency care if you have severe symptoms, such as trouble catching your breath or talking. (For more information on severe symptoms, go to “What Are the Signs and Symptoms of COPD?”)Call your doctor if you notice that your symptoms are worsening or if you have signs of an infection, such as a fever. Your doctor may change or adjust your treatments to relieve and treat symptoms.Keep phone numbers handy for your doctor, hospital, and someone who can take you for medical care. You also should have on hand directions to the doctor’s office and hospital and a list of all the medicines you’re taking.
Emotional Issues and Support
Living with COPD may cause fear, anxiety, depression, and stress. Talk about how you feel with your health care team. Talking to a professional counselor also might help. If you’re very depressed, your doctor may recommend medicines or other treatments that can improve your quality of life.Joining a patient support group may help you adjust to living with COPD. You can see how other people who have the same symptoms have coped with them. Talk with your doctor about local support groups or check with an area medical center.
Support from family and friends also can help relieve stress and anxiety. Let your loved ones know how you feel and what they can do to help you.
Source: National Heart Lung and Blood Institute
Clinical Trials
The National Heart, Lung, and Blood Institute (NHLBI) is strongly committed to supporting research aimed at preventing and treating heart, lung, and blood diseases and conditions and sleep disorders. NHLBI-supported research has led to many advances in medical knowledge and care. For example, this research has uncovered some of the causes of chronic lung diseases, as well as ways to prevent and treat these diseases. Many more questions remain about chronic lung diseases, including COPD. The NHLBI continues to support research aimed at learning more about these diseases. For example, NHLBI-supported research on COPD includes studies that explore:
•How certain medicines and other therapies can help treat COPD and improve quality of life for people who have the disease
•Whether genetic factors increase the risk of lung damage that can lead to COPD
•Whether a self-managed physical activity program is cost effective and can help people who have COPD function better
•How a coping skills training program can improve quality of life for people who have COPD and their caregivers
•Whether the physical properties of mucus play a role in the worsening of COPD, especially chronic bronchitis
•How bacteria and toxins found in the lungs, mouth, and digestive system contribute to COPD and other lung diseasesMuch of this research depends on the willingness of volunteers to take part in clinical trials.
Clinical trials test new ways to prevent, diagnose, or treat various diseases and conditions.For example, new treatments for a disease or condition (such as medicines, medical devices, surgeries, or procedures) are tested in volunteers who have the illness. Testing shows whether a treatment is safe and effective in humans before it is made available for widespread use.By taking part in a clinical trial, you may gain access to new treatments before they’re widely available. You also will have the support of a team of health care providers, who will likely monitor your health closely. Even if you don’t directly benefit from the results of a clinical trial, the information gathered can help others and add to scientific knowledge.If you volunteer for a clinical trial, the research will be explained to you in detail. You’ll learn about treatments and tests you may receive, and the benefits and risks they may pose. You’ll also be given a chance to ask questions about the research. This process is called informed consent.If you agree to take part in the trial, you’ll be asked to sign an informed consent form. This form is not a contract. You have the right to withdraw from a study at any time, for any reason. Also, you have the right to learn about new risks or findings that emerge during the trial.For more information about clinical trials related to COPD, talk with your doctor. You also can visit the following Web sites to learn more about clinical research and to search for clinical trials:
•http://clinicalresearch.nih.gov
•www.clinicaltrials.gov
•www.nhlbi.nih.gov/studies/index.htm
•www.researchmatch.org
Asthma
What Is Asthma?
Asthma (AZ-ma) is a chronic (long-term) lung disease that inflames and narrows the airways. Asthma causes recurring periods of wheezing (a whistling sound when you breathe), chest tightness, shortness of breath, and coughing. The coughing often occurs at night or early in the morning.
Asthma affects people of all ages, but it most often starts during childhood. In the United States, more than 25 million people are known to have asthma. About 7 million of these people are children.
Overview
To understand asthma, it helps to know how the airways work. The airways are tubes that carry air into and out of your lungs. People who have asthma have inflamed airways. This makes them swollen and very sensitive. They tend to react strongly to certain inhaled substances.
When the airways react, the muscles around them tighten. This narrows the airways, causing less air to flow into the lungs. The swelling also can worsen, making the airways even narrower. Cells in the airways might make more mucus than usual. Mucus is a sticky, thick liquid that can further narrow the airways.
This chain reaction can result in asthma symptoms. Symptoms can happen each time the airways are inflamed.
Asthma
Figure A shows the location of the lungs and airways in the body. Figure B shows a cross-section of a normal airway. Figure C shows a cross-section of an airway during asthma symptoms.
Sometimes asthma symptoms are mild and go away on their own or after minimal treatment with asthma medicine. Other times, symptoms continue to get worse.
When symptoms get more intense and/or more symptoms occur, you’re having an asthma attack. Asthma attacks also are called flareups or exacerbations (eg-zas-er-BA-shuns).
Treating symptoms when you first notice them is important. This will help prevent the symptoms from worsening and causing a severe asthma attack. Severe asthma attacks may require emergency care, and they can be fatal.
Outlook
Asthma has no cure. Even when you feel fine, you still have the disease and it can flare up at any time.
However, with today’s knowledge and treatments, most people who have asthma are able to manage the disease. They have few, if any, symptoms. They can live normal, active lives and sleep through the night without interruption from asthma.
If you have asthma, you can take an active role in managing the disease. For successful, thorough, and ongoing treatment, build strong partnerships with your doctor and other health care providers.
Source: National Heart Lung and Blood Institute
What Causes Asthma?
The exact cause of asthma isn’t known. Researchers think some genetic and environmental factors interact to cause asthma, most often early in life. These factors include:
•An inherited tendency to develop allergies, called atopy (AT-o-pe)
•Parents who have asthma
•Certain respiratory infections during childhood
•Contact with some airborne allergens or exposure to some viral infections in infancy or in early childhood when the immune system is developing
If asthma or atopy runs in your family, exposure to irritants (for example, tobacco smoke) might make your airways more reactive to substances in the air.
Some factors might be more likely to cause asthma in certain people than in others. Researchers continue to explore what causes asthma.
The Hygiene Hypothesis
One theory researchers have for what causes asthma is called the hygiene hypothesis. They believe that our Western lifestyle—with its emphasis on hygiene and sanitation—has resulted in changes in our living conditions and an overall decline in infections in early childhood.
Many young children no longer have the same types of environmental exposures and infections as children did in the past. This affects the way that young children’s immune systems develop during very early childhood, and it may increase their risk for atopy and asthma. This is especially true for children who have close family members with one or both of these conditions.
Source: National Heart Lung and Blood Institute
Who Is at Risk for Asthma?
Asthma affects people of all ages, but it most often starts during childhood. In the United States, more than 25 million people are known to have asthma. About 7 million of these people are children.
Young children who often wheeze and have respiratory infections—as well as certain other risk factors—are at highest risk of developing asthma that continues beyond 6 years of age. The other risk factors include having allergies, eczema (an allergic skin condition), or parents who have asthma.
Among children, more boys have asthma than girls. But among adults, the disease affects men and women equally. It’s not clear whether or how sex and sex hormones play a role in causing asthma.
Most, but not all, people who have asthma have allergies.
Some people develop asthma because of contact with certain chemical irritants or industrial dusts in the workplace. This type of asthma is called occupational asthma.
Source: National Heart Lung and Blood Institute
What Are the Signs and Symptoms of Asthma?
Common signs and symptoms of asthma include:
•Coughing. Coughing from asthma often is worse at night or early in the morning, making it hard to sleep.
•Wheezing. Wheezing is a whistling or squeaky sound that occurs when you breathe.
•Chest tightness. This may feel like something is squeezing or sitting on your chest.
•Shortness of breath. Some people who have asthma say they can’t catch their breath or they feel out of breath. You may feel like you can’t get air out of your lungs.
Not all people who have asthma have these symptoms. Likewise, having these symptoms doesn’t always mean that you have asthma. The best way doctors have to diagnose asthma is to use a lung function test, ask about medical history (including type and frequency of symptoms), and do a physical exam.
The type of asthma symptoms you have, how often they occur, and how severe they are may vary over time. Sometimes your symptoms may just annoy you. Other times, they may be troublesome enough to limit your daily routine.
Severe symptoms can be fatal. Thus, treating symptoms when you first notice them is important, so they don’t become severe.
With proper treatment, most people who have asthma can expect to have few, if any, symptoms either during the day or at night.
What Causes Asthma Symptoms To Occur?
Many things can trigger or worsen asthma symptoms. Your doctor will help you find out which things (called triggers) may cause your asthma to flare up if you come in contact with them. Triggers can include:
•Allergens from dust, animal fur, cockroaches, mold, and pollens from trees, grasses, and flowers
•Irritants such as cigarette smoke, air pollution, chemicals or dust in the workplace, compounds in home décor products, and sprays (such as hairspray)
•Medicines such as aspirin or other nonsteroidal anti-inflammatory drugs and nonselective beta-blockers
•Sulfites in foods and drinks
•Viral upper respiratory infections, such as colds
•Physical activity, including exercise
Other health conditions can make asthma harder to manage. Examples of these conditions include a runny nose, sinus infections, reflux disease, psychological stress, and sleep apnea. These conditions should be treated as part of an overall asthma care plan.
Asthma is different for each person. Some of the triggers listed above may not affect you. Other triggers that do affect you might not be on the list. Talk with your doctor about the things that seem to make your asthma worse.
Source: National Heart Lung and Blood Institute
How Is Asthma Diagnosed?
Your primary care doctor will diagnose asthma based on your medical and family histories, a physical exam, and test results.
Your doctor also will figure out the severity of your asthma—that is, whether it’s intermittent, mild, moderate, or severe. The treatment your doctor prescribes will depend on the level of severity.
Your doctor may recommend that you see an asthma specialist if:
•You need special tests to help diagnose asthma
•You’ve had a life-threatening asthma attack
•You need more than one kind of medicine or higher doses of medicine to control your asthma, or if you have overall problems getting your asthma well controlled
•You’re thinking about getting allergy treatments
Medical and Family Histories
Your doctor may ask about your family history of asthma and allergies. He or she also may ask whether you have asthma symptoms and when and how often they occur.
Let your doctor know whether your symptoms seem to happen only during certain times of the year or in certain places, or if they get worse at night.
Your doctor also may want to know what factors seem to trigger your symptoms or worsen them. For more information about possible asthma triggers, go to “What Are the Signs and Symptoms of Asthma?”
Your doctor may ask you about related health conditions that can interfere with asthma management. These conditions include a runny nose, sinus infections, reflux disease, psychological stress, and sleep apnea.
Physical Exam
Your doctor will listen to your breathing and look for signs of asthma or allergies. These signs include wheezing, a runny nose or swollen nasal passages, and allergic skin conditions (such as eczema).
Keep in mind that you can still have asthma even if you don’t have these signs when your doctor examines you.
Diagnostic Tests
Lung Function Test
Your doctor will use a test called spirometry (spi-ROM-eh-tre) to check how your lungs are working. This test measures how much air you can breathe in and out. It also measures how fast you can blow air out.
Your doctor may give you medicine and then retest you to see whether the results have improved.
If your test results are lower than normal and improve with the medicine, and if your medical history shows a pattern of asthma symptoms, your doctor will likely diagnose you with asthma.
Other Tests
Your doctor may recommend other tests if he or she needs more information to make a diagnosis. Other tests may include:
•Allergy testing to find out which allergens affect you, if any.
•A test to measure how sensitive your airways are. This is called a bronchoprovocation (brong-KO-prav-eh-KA-shun) test. Using spirometry, this test repeatedly measures your lung function during physical activity or after you receive increasing doses of cold air or a special chemical to breathe in.
•A test to show whether you have another condition with symptoms similar to asthma, such as reflux disease, vocal cord dysfunction, or sleep apnea.
•A chest x ray or an EKG (electrocardiogram). These tests will help find out whether a foreign object in your airways or another disease might be causing your symptoms.
Diagnosing Asthma in Young Children
Most children who have asthma develop their first symptoms before 5 years of age. However, asthma in young children (infants to children 5 years old) can be hard to diagnose.
Sometimes it’s hard to tell whether a child has asthma or another childhood condition. The symptoms of asthma are similar to the symptoms of other conditions.
Also, many young children who wheeze when they get colds or respiratory infections don’t go on to have asthma. A child may wheeze because he or she has small airways that become narrow during colds or respiratory infections. The airways grow as the child grows, so wheezing no longer occurs as the child gets older.
A young child who has frequent wheezing with colds or respiratory infections is more likely to have asthma if:
•One or both parents have asthma
•The child has signs of allergies, including the allergic skin condition eczema
•The child has allergic reactions to pollens or other airborne allergens
•The child wheezes even when he or she doesn’t have a cold or other infection
The most certain way to diagnose asthma is with a lung function test, a medical history, and a physical exam. However, it’s hard to do lung function tests in children younger than 5 years. Thus, doctors must rely on children’s medical histories, signs and symptoms, and physical exams to make a diagnosis.
Doctors also may use a 4–6 week trial of asthma medicines to see how well a child responds.
Source: National Heart Lung and Blood Institute
How Is Asthma Treated and Controlled?
Asthma is a long-term disease that has no cure. The goal of asthma treatment is to control the disease. Good asthma control will:
•Prevent chronic and troublesome symptoms, such as coughing and shortness of breath
•Reduce your need for quick-relief medicines (see below)
•Help you maintain good lung function
•Let you maintain your normal activity level and sleep through the night
•Prevent asthma attacks that could result in an emergency room visit or hospital stay
To control asthma, partner with your doctor to manage your asthma or your child’s asthma. Children aged 10 or older—and younger children who are able—should take an active role in their asthma care.
Taking an active role to control your asthma involves:
•Working with your doctor to treat other conditions that can interfere with asthma management.
•Avoiding things that worsen your asthma (asthma triggers). However, one trigger you should not avoid is physical activity. Physical activity is an important part of a healthy lifestyle. Talk with your doctor about medicines that can help you stay active. •Working with your doctor and other health care providers to create and follow an asthma action plan.
An asthma action plan gives guidance on taking your medicines properly, avoiding asthma triggers (except physical activity), tracking your level of asthma control, responding to worsening symptoms, and seeking emergency care when needed.
Asthma is treated with two types of medicines: long-term control and quick-relief medicines. Long-term control medicines help reduce airway inflammation and prevent asthma symptoms. Quick-relief, or “rescue,” medicines relieve asthma symptoms that may flare up.
Your initial treatment will depend on the severity of your asthma. Followup asthma treatment will depend on how well your asthma action plan is controlling your symptoms and preventing asthma attacks.
Your level of asthma control can vary over time and with changes in your home, school, or work environments. These changes can alter how often you’re exposed to the factors that can worsen your asthma.
Your doctor may need to increase your medicine if your asthma doesn’t stay under control. On the other hand, if your asthma is well controlled for several months, your doctor may decrease your medicine. These adjustments to your medicine will help you maintain the best control possible with the least amount of medicine necessary.
Asthma treatment for certain groups of people—such as children, pregnant women, or those for whom exercise brings on asthma symptoms—will be adjusted to meet their special needs.
Follow an Asthma Action Plan
You can work with your doctor to create a personal asthma action plan. The plan will describe your daily treatments, such as which medicines to take and when to take them. The plan also will explain when to call your doctor or go to the emergency room.
If your child has asthma, all of the people who care for him or her should know about the child’s asthma action plan. This includes babysitters and workers at daycare centers, schools, and camps. These caretakers can help your child follow his or her action plan.
Go to the National Heart, Lung, and Blood Institute’s (NHLBI’s) “Asthma Action Plan” for a sample plan.
Avoid Things That Can Worsen Your Asthma
Many common things (called asthma triggers) can set off or worsen your asthma symptoms. Once you know what these things are, you can take steps to control many of them. (For more information about asthma triggers, go to “What Are the Signs and Symptoms of Asthma?”)
For example, exposure to pollens or air pollution might make your asthma worse. If so, try to limit time outdoors when the levels of these substances in the outdoor air are high. If animal fur triggers your asthma symptoms, keep pets with fur out of your home or bedroom.
One possible asthma trigger you shouldn’t avoid is physical activity. Physical activity is an important part of a healthy lifestyle. Talk with your doctor about medicines that can help you stay active.
The NHLBI offers many useful tips for controlling asthma triggers. For more information, go to page 2 of NHLBI’s “Asthma Action Plan.”
If your asthma symptoms are clearly related to allergens, and you can’t avoid exposure to those allergens, your doctor may advise you to get allergy shots.
You may need to see a specialist if you’re thinking about getting allergy shots. These shots can lessen or prevent your asthma symptoms, but they can’t cure your asthma.
Several health conditions can make asthma harder to manage. These conditions include runny nose, sinus infections, reflux disease, psychological stress, and sleep apnea. Your doctor will treat these conditions as well.
Medicines
Your doctor will consider many things when deciding which asthma medicines are best for you. He or she will check to see how well a medicine works for you. Then, he or she will adjust the dose or medicine as needed.
Asthma medicines can be taken in pill form, but most are taken using a device called an inhaler. An inhaler allows the medicine to go directly to your lungs.
Not all inhalers are used the same way. Ask your doctor or another health care provider to show you the right way to use your inhaler. Review the way you use your inhaler at every medical visit.
Long-Term Control Medicines
Most people who have asthma need to take long-term control medicines daily to help prevent symptoms. The most effective long-term medicines reduce airway inflammation, which helps prevent symptoms from starting. These medicines don’t give you quick relief from symptoms.
Inhaled corticosteroids. Inhaled corticosteroids are the preferred medicine for long-term control of asthma. They’re the most effective option for long-term relief of the inflammation and swelling that makes your airways sensitive to certain inhaled substances.
Reducing inflammation helps prevent the chain reaction that causes asthma symptoms. Most people who take these medicines daily find they greatly reduce the severity of symptoms and how often they occur.
Inhaled corticosteroids generally are safe when taken as prescribed. These medicines are different from the illegal anabolic steroids taken by some athletes. Inhaled corticosteroids aren’t habit-forming, even if you take them every day for many years.
Like many other medicines, though, inhaled corticosteroids can have side effects. Most doctors agree that the benefits of taking inhaled corticosteroids and preventing asthma attacks far outweigh the risk of side effects.
One common side effect from inhaled corticosteroids is a mouth infection called thrush. You might be able to use a spacer or holding chamber on your inhaler to avoid thrush. These devices attach to your inhaler. They help prevent the medicine from landing in your mouth or on the back of your throat.
Check with your doctor to see whether a spacer or holding chamber should be used with the inhaler you have. Also, work with your health care team if you have any questions about how to use a spacer or holding chamber. Rinsing your mouth out with water after taking inhaled corticosteroids also can lower your risk for thrush.
If you have severe asthma, you may have to take corticosteroid pills or liquid for short periods to get your asthma under control.
If taken for long periods, these medicines raise your risk for cataracts and osteoporosis (OS-te-o-po-RO-sis). A cataract is the clouding of the lens in your eye. Osteoporosis is a disorder that makes your bones weak and more likely to break.
Your doctor may have you add another long-term asthma control medicine so he or she can lower your dose of corticosteroids. Or, your doctor may suggest you take calcium and vitamin D pills to protect your bones.
Other long-term control medicines. Other long-term control medicines include:
•Cromolyn. This medicine is taken using a device called a nebulizer. As you breathe in, the nebulizer sends a fine mist of medicine to your lungs. Cromolyn helps prevent airway inflammation.
•Omalizumab (anti-IgE). This medicine is given as a shot (injection) one or two times a month. It helps prevent your body from reacting to asthma triggers, such as pollen and dust. Anti-IgE might be used if other asthma medicines have not worked well.
•Inhaled long-acting beta2-agonists. These medicines open the airways. They might be added to low-dose inhaled corticosteroids to improve asthma control. Inhaled long-acting beta2-agonists should never be used for long-term asthma control unless they’re used with inhaled corticosteroids.
•Leukotriene modifiers. These medicines are taken by mouth. They help block the chain reaction that increases inflammation in your airways.
•Theophylline. This medicine is taken by mouth. Theophylline helps open the airways.
If your doctor prescribes a long-term control medicine, take it every day to control your asthma. Your asthma symptoms will likely return or get worse if you stop taking your medicine.
Long-term control medicines can have side effects. Talk with your doctor about these side effects and ways to reduce or avoid them.
With some medicines, like theophylline, your doctor will check the level of medicine in your blood. This helps ensure that you’re getting enough medicine to relieve your asthma symptoms, but not so much that it causes dangerous side effects.
Quick-Relief Medicines
All people who have asthma need quick-relief medicines to help relieve asthma symptoms that may flare up. Inhaled short-acting beta2-agonists are the first choice for quick relief.
These medicines act quickly to relax tight muscles around your airways when you’re having a flareup. This allows the airways to open up so air can flow through them.
You should take your quick-relief medicine when you first notice asthma symptoms. If you use this medicine more than 2 days a week, talk with your doctor about your asthma control. You may need to make changes to your asthma action plan.
Carry your quick-relief inhaler with you at all times in case you need it. If your child has asthma, make sure that anyone caring for him or her has the child’s quick-relief medicines, including staff at the child’s school. They should understand when and how to use these medicines and when to seek medical care for your child.
You shouldn’t use quick-relief medicines in place of prescribed long-term control medicines. Quick-relief medicines don’t reduce inflammation.
Track Your Asthma
To track your asthma, keep records of your symptoms, check your peak flow number using a peak flow meter, and get regular asthma checkups.
Record Your Symptoms
You can record your asthma symptoms in a diary to see how well your treatments are controlling your asthma.
Asthma is well controlled if:
•You have symptoms no more than 2 days a week, and these symptoms don’t wake you from sleep more than 1 or 2 nights a month.
•You can do all your normal activities.
•You take quick-relief medicines no more than 2 days a week.
•You have no more than one asthma attack a year that requires you to take corticosteroids by mouth.
•Your peak flow doesn’t drop below 80 percent of your personal best number.
If your asthma isn’t well controlled, contact your doctor. He or she may need to change your asthma action plan.
Use a Peak Flow Meter
This small, hand-held device shows how well air moves out of your lungs. You blow into the device and it gives you a score, or peak flow number. Your score shows how well your lungs are working at the time of the test.
Your doctor will tell you how and when to use your peak flow meter. He or she also will teach you how to take your medicines based on your score.
Your doctor and other health care providers may ask you to use your peak flow meter each morning and keep a record of your results. You may find it very useful to record peak flow scores for a couple of weeks before each medical visit and take the results with you.
When you’re first diagnosed with asthma, it’s important to find your “personal best” peak flow number. To do this, you record your score each day for a 2- to 3-week period when your asthma is well-controlled. The highest number you get during that time is your personal best. You can compare this number to future numbers to make sure your asthma is controlled.
Your peak flow meter can help warn you of an asthma attack, even before you notice symptoms. If your score shows that your breathing is getting worse, you should take your quick-relief medicines the way your asthma action plan directs. Then you can use the peak flow meter to check how well the medicine worked.
Get Asthma Checkups
When you first begin treatment, you’ll see your doctor about every 2 to 6 weeks. Once your asthma is controlled, your doctor may want to see you from once a month to twice a year.
During these checkups, your doctor may ask whether you’ve had an asthma attack since the last visit or any changes in symptoms or peak flow measurements. He or she also may ask about your daily activities. This information will help your doctor assess your level of asthma control.
Your doctor also may ask whether you have any problems or concerns with taking your medicines or following your asthma action plan. Based on your answers to these questions, your doctor may change the dose of your medicine or give you a new medicine.
If your control is very good, you might be able to take less medicine. The goal is to use the least amount of medicine needed to control your asthma.
Emergency Care
Most people who have asthma, including many children, can safely manage their symptoms by following their asthma action plans. However, you might need medical attention at times.
Call your doctor for advice if:
•Your medicines don’t relieve an asthma attack.
•Your peak flow is less than half of your personal best peak flow number.
Call 9–1–1 for emergency care if:
•You have trouble walking and talking because you’re out of breath.
•You have blue lips or fingernails.
At the hospital, you’ll be closely watched and given oxygen and more medicines, as well as medicines at higher doses than you take at home. Such treatment can save your life.
Asthma Treatment for Special Groups
The treatments described above generally apply to all people who have asthma. However, some aspects of treatment differ for people in certain age groups and those who have special needs.
Children
It’s hard to diagnose asthma in children younger than 5 years. Thus, it’s hard to know whether young children who wheeze or have other asthma symptoms will benefit from long-term control medicines. (Quick-relief medicines tend to relieve wheezing in young children whether they have asthma or not.)
Doctors will treat infants and young children who have asthma symptoms with long-term control medicines if, after assessing a child, they feel that the symptoms are persistent and likely to continue after 6 years of age. (For more information, go to “How Is Asthma Diagnosed?”)
Inhaled corticosteroids are the preferred treatment for young children. Montelukast and cromolyn are other options. Treatment might be given for a trial period of 1 month to 6 weeks. Treatment usually is stopped if benefits aren’t seen during that time and the doctor and parents are confident the medicine was used properly.
Inhaled corticosteroids can possibly slow the growth of children of all ages. Slowed growth usually is apparent in the first several months of treatment, is generally small, and doesn’t get worse over time. Poorly controlled asthma also may reduce a child’s growth rate.
Many experts think the benefits of inhaled corticosteroids for children who need them to control their asthma far outweigh the risk of slowed growth.
Older Adults
Doctors may need to adjust asthma treatment for older adults who take certain other medicines, such as beta blockers, aspirin and other pain relievers, and anti-inflammatory medicines. These medicines can prevent asthma medicines from working well and may worsen asthma symptoms.
Be sure to tell your doctor about all of the medicines you take, including over-the-counter medicines.
Older adults may develop weak bones from using inhaled corticosteroids, especially at high doses. Talk with your doctor about taking calcium and vitamin D pills, as well as other ways to help keep your bones strong.
Pregnant Women
Pregnant women who have asthma need to control the disease to ensure a good supply of oxygen to their babies. Poor asthma control increases the risk that a baby will be born early and have a low birth weight. Poor asthma control can even risk the baby’s life.
Studies show that it’s safer to take asthma medicines while pregnant than to risk having an asthma attack.
Talk with your doctor if you have asthma and are pregnant or planning a pregnancy. Your level of asthma control may get better or it may get worse while you’re pregnant. Your health care team will check your asthma control often and adjust your treatment as needed.
People Whose Asthma Symptoms Occur With Physical Activity
Physical activity is an important part of a healthy lifestyle. Adults need physical activity to maintain good health. Children need it for growth and development.
In some people, however, physical activity can trigger asthma symptoms. If this happens to you or your child, talk with your doctor about the best ways to control asthma so you can stay active.
The following medicines may help prevent asthma symptoms caused by physical activity:
•Short-acting beta2-agonists (quick-relief medicine) taken shortly before physical activity can last 2 to 3 hours and prevent exercise-related symptoms in most people who take them.
•Long-acting beta2-agonists can be protective for up to 12 hours. However, with daily use, they’ll no longer give up to 12 hours of protection. Also, frequent use of these medicines for physical activity might be a sign that asthma is poorly controlled.
•Leukotriene modifiers. These pills are taken several hours before physical activity. They can help relieve asthma symptoms brought on by physical activity.
•Long-term control medicines. Frequent or severe symptoms due to physical activity may suggest poorly controlled asthma and the need to either start or increase long-term control medicines that reduce inflammation. This will help prevent exercise-related symptoms.
Easing into physical activity with a warmup period may be helpful. You also may want to wear a mask or scarf over your mouth when exercising in cold weather.
If you use your asthma medicines as your doctor directs, you should be able to take part in any physical activity or sport you choose.
People Having Surgery
Asthma may add to the risk of having problems during and after surgery. For instance, having a tube put into your throat may cause an asthma attack.
Tell your surgeon about your asthma when you first talk with him or her. The surgeon can take steps to lower your risk, such as giving you asthma medicines before or during surgery.
Source: National Heart Lung and Blood Institute
How Can Asthma Be Prevented?
You can’t prevent asthma. However, you can take steps to control the disease and prevent its symptoms. For example:
•Learn about your asthma and ways to control it.
•Follow your written asthma action plan. (For a sample plan, go to the National Heart, Lung, and Blood Institute’s “Asthma Action Plan.”)
•Use medicines as your doctor prescribes.
•Identify and try to avoid things that make your asthma worse (asthma triggers). However, one trigger you should not avoid is physical activity. Physical activity is an important part of a healthy lifestyle. Talk with your doctor about medicines that can help you stay active.
•Keep track of your asthma symptoms and level of control.
•Get regular checkups for your asthma.
For more details about how to prevent asthma symptoms and attacks, go to “How Is Asthma Treated and Controlled?”
Source: National Heart Lung and Blood Institute
Living With Asthma
If you have asthma, you’ll need long-term care. Successful asthma treatment requires that you take an active role in your care and follow your asthma action plan.
Learn How To Manage Your Asthma
Partner with your doctor to develop an asthma action plan. This plan will help you know when and how to take your medicines. The plan also will help you identify your asthma triggers and manage your disease if asthma symptoms worsen.
Children aged 10 or older—and younger children who can handle it—should be involved in creating and following their asthma action plans. For a sample plan, go to the National Heart, Lung, and Blood Institute’s “Asthma Action Plan.”
Most people who have asthma can successfully manage their symptoms by following their asthma action plans and having regular checkups. However, knowing when to seek emergency medical care is important.
Learn how to use your medicines correctly. If you take inhaled medicines, you should practice using your inhaler at your doctor’s office. If you take long-term control medicines, take them daily as your doctor prescribes.
Record your asthma symptoms as a way to track how well your asthma is controlled. Also, your doctor may advise you to use a peak flow meter to measure and record how well your lungs are working.
Your doctor may ask you to keep records of your symptoms or peak flow results daily for a couple of weeks before an office visit. You’ll bring these records with you to the visit. (For more information about using a peak flow meter, go to “How Is Asthma Treated and Controlled?”)
These steps will help you keep track of how well you’re controlling your asthma over time. This will help you spot problems early and prevent or relieve asthma attacks. Recording your symptoms and peak flow results to share with your doctor also will help him or her decide whether to adjust your treatment.
Ongoing Care
Have regular asthma checkups with your doctor so he or she can assess your level of asthma control and adjust your treatment as needed. Remember, the main goal of asthma treatment is to achieve the best control of your asthma using the least amount of medicine. This may require frequent adjustments to your treatments.
If you find it hard to follow your asthma action plan or the plan isn’t working well, let your health care team know right away. They will work with you to adjust your plan to better suit your needs.
Get treatment for any other conditions that can interfere with your asthma management.
Watch for Signs That Your Asthma Is Getting Worse
Your asthma might be getting worse if:
•Your symptoms start to occur more often, are more severe, or bother you at night and cause you to lose sleep.
•You’re limiting your normal activities and missing school or work because of your asthma.
•Your peak flow number is low compared to your personal best or varies a lot from day to day.
•Your asthma medicines don’t seem to work well anymore.
•You have to use your quick-relief inhaler more often. If you’re using quick-relief medicine more than 2 days a week, your asthma isn’t well controlled.
•You have to go to the emergency room or doctor because of an asthma attack.
If you have any of these signs, see your doctor. He or she might need to change your medicines or take other steps to control your asthma.
Partner with your health care team and take an active role in your care. This can help you better control your asthma so it doesn’t interfere with your activities and disrupt your life.
Source: National Heart Lung and Blood Institute
Clinical Trials
The National Heart, Lung, and Blood Institute (NHLBI) is strongly committed to supporting research aimed at preventing and treating heart, lung, and blood diseases and conditions and sleep disorders.
NHLBI-supported research has led to many advances in medical knowledge and care. For example, this research has uncovered some of the causes of chronic lung diseases, as well as ways to prevent and treat these diseases.
Many more questions remain about chronic lung diseases, including asthma. The NHLBI continues to support research aimed at learning more about these diseases. For example, NHLBI-supported research on asthma includes studies that:
•Explore how substances in exhaled breath can be used to predict asthma symptoms
•Evaluate and explore genes that might be involved in the development of asthma
•Identify substances in the airways that might cause airway inflammation
•Examine the effect of a widely used diabetes medicine on severe asthma
Much of this research depends on the willingness of volunteers to take part in clinical trials. Clinical trials test new ways to prevent, diagnose, or treat various diseases and conditions.
For example, new treatments for a disease or condition (such as medicines, medical devices, surgeries, or procedures) are tested in volunteers who have the illness. Testing shows whether a treatment is safe and effective in humans before it is made available for widespread use.
By taking part in a clinical trial, you may gain access to new treatments before they’re widely available. You also will have the support of a team of health care providers, who will likely monitor your health closely. Even if you don’t directly benefit from the results of a clinical trial, the information gathered can help others and add to scientific knowledge.
If you volunteer for a clinical trial, the research will be explained to you in detail. You’ll learn about treatments and tests you may receive, and the benefits and risks they may pose. You’ll also be given a chance to ask questions about the research. This process is called informed consent.
If you agree to take part in the trial, you’ll be asked to sign an informed consent form. This form is not a contract. You have the right to withdraw from a study at any time, for any reason. Also, you have the right to learn about new risks or findings that emerge during the trial.
For more information about clinical trials related to asthma, talk with your doctor. You also can visit the following Web sites to learn more about clinical research and to search for clinical trials:
•http://clinicalresearch.nih.gov
•www.clinicaltrials.gov
•www.nhlbi.nih.gov/studies/index.htm
•www.researchmatch.org
For more information about clinical trials for children, visit the NHLBI’s Children and Clinical Studies Web page.
Pulmonary Hypertension
What Is Pulmonary Hypertension?
Pulmonary hypertension (PULL-mun-ary HI-per-TEN-shun), or PH, is increased pressure in the pulmonary arteries. These arteries carry blood from your heart to your lungs to pick up oxygen.
PH causes symptoms such as shortness of breath during routine activity (for example, climbing two flights of stairs), tiredness, chest pain, and a racing heartbeat. As the condition worsens, its symptoms may limit all physical activity.
Overview
To understand PH, it helps to understand how your heart and lungs work. Your heart has two sides, separated by an inner wall called the septum.
Each side of your heart has an upper and lower chamber. The lower right chamber of your heart, the right ventricle (VEN-trih-kul), pumps blood to your pulmonary arteries. The blood then travels to your lungs, where it picks up oxygen.
The upper left chamber of your heart, the left atrium (AY-tree-um), receives the oxygen-rich blood from your lungs. The blood is then pumped into the lower left chamber of your heart, the left ventricle. From the left ventricle, the blood is pumped to the rest of your body through an artery called the aorta.
For more information about the heart and lungs, go to the Health Topics How the Heart Works and How the Lungs Work articles.
PH begins with inflammation and changes in the cells that line your pulmonary arteries. Other factors also can affect the pulmonary arteries and cause PH. For example, the condition may develop if:
•The walls of the arteries tighten.
•The walls of the arteries are stiff at birth or become stiff from an overgrowth of cells.
•Blood clots form in the arteries.
These changes make it hard for your heart to push blood through your pulmonary arteries and into your lungs. As a result, the pressure in your arteries rises. Also, because your heart is working harder than normal, your right ventricle becomes strained and weak.
Your heart may become so weak that it can’t pump enough blood to your lungs. This causes heart failure. Heart failure is the most common cause of death in people who have PH.
PH is divided into five groups based on its causes. In all groups, the average pressure in the pulmonary arteries is higher than 25 mmHg at rest or 30 mmHg during physical activity. The pressure in normal pulmonary arteries is 8–20 mmHg at rest. (The mmHg is millimeters of mercury—the units used to measure blood pressure.)
Other diseases or conditions, such as heart and lung diseases or blood clots, usually cause PH. Some people inherit the condition (that is, their parents pass the genes for PH on to them). In some cases, the cause isn’t known.
Outlook
PH has no cure. However, research for new treatments is ongoing. The earlier PH is treated, the easier it is to control.
Treatments include medicines, procedures, and other therapies. These treatments can relieve PH symptoms and slow the progress of the disease. Lifestyle changes also can help control symptoms.
Source: National Heart Lung and Blood Institute
Types of Pulmonary Hypertension
The World Health Organization divides pulmonary hypertension (PH) into five groups. These groups are organized based on the cause of the condition.
In all groups, the average pressure in the pulmonary arteries is higher than 25 mmHg at rest or 30 mmHg during physical activity. The pressure in normal pulmonary arteries is 8–20 mmHg at rest.
(Note that group 1 is called pulmonary arterial hypertension (PAH) and groups 2 through 5 are called pulmonary hypertension. However, together all groups are called pulmonary hypertension.)
Group 1 Pulmonary Arterial Hypertension
Group 1 PAH includes:
•PAH that has no known cause.
•PAH that’s inherited (passed from parents to children through genes).
•PAH that’s caused by drugs or toxins, such as street drugs and certain diet medicines.
•PAH that’s caused by conditions such as: ◦Connective tissue diseases. (Connective tissue helps support all parts of your body, including your skin, eyes, and heart.)
◦HIV infection.
◦Liver disease.
◦Congenital heart disease. This is heart disease that’s present at birth.
◦Sickle cell disease.
◦Schistosomiasis (SKIS-toe-so-MI-ah-sis). This is an infection caused by a parasite. Schistosomiasis is one of the most common causes of PAH in many parts of the world.
•PAH that’s caused by conditions that affect the veins and small blood vessels of the lungs.
Group 2 Pulmonary Hypertension
Group 2 includes PH with left heart disease. Conditions that affect the left side of the heart, such as mitral valve disease or long-term high blood pressure, can cause left heart disease and PH. Left heart disease is likely the most common cause of PH.
Group 3 Pulmonary Hypertension
Group 3 includes PH associated with lung diseases, such as COPD (chronic obstructive pulmonary disease) and interstitial (IN-ter-STISH-al) lung diseases. Interstitial lung diseases cause scarring of the lung tissue.
Group 3 also includes PH associated with sleep-related breathing disorders, such as sleep apnea.
Group 4 Pulmonary Hypertension
Group 4 includes PH caused by blood clots in the lungs or blood clotting disorders.
Group 5 Pulmonary Hypertension
Group 5 includes PH caused by various other diseases or conditions. Examples include:
•Blood disorders, such as polycythemia vera (POL-e-si-THE-me-ah VAY-rah or VE-rah) and essential thrombocythemia (THROM-bo-si-THE-me-ah).
•Systemic disorders, such as sarcoidosis (sar-koy-DO-sis) and vasculitis (vas-kyu-LI-tis). Systemic disorders involve many of the body’s organs.
•Metabolic disorders, such as thyroid disease and glycogen storage disease. (In glycogen storage disease, the body’s cells don’t use a form of glucose (sugar) properly.)
•Other conditions, such as tumors that press on the pulmonary arteries and kidney disease.
Source: National Heart Lung and Blood Institute
Other Names for Pulmonary Hypertension
Group 1 pulmonary arterial hypertension (PAH) that occurs without a known cause often is called primary PAH or idiopathic (id-ee-o-PATH-ick) PAH.
Group 1 PAH that occurs with a known cause often is called associated PAH. For example, PAH that occurs in a person who has scleroderma might be called “PAH occurring in association with scleroderma,” or simply “scleroderma-associated PAH.”
Groups 2–5 pulmonary hypertension (PH) sometimes are called secondary PH.
Source: National Heart Lung and Blood Institute
What Causes Pulmonary Hypertension?
Pulmonary hypertension (PH) begins with inflammation and changes in the cells that line your pulmonary arteries. Other factors also can affect the pulmonary arteries and cause PH. For example, the condition may develop if:
•The walls of the arteries tighten.
•The walls of the arteries are stiff at birth or become stiff from an overgrowth of cells.
•Blood clots form in the arteries.
These changes make it hard for your heart to push blood through your pulmonary arteries and into your lungs. Thus, the pressure in the arteries rises, causing PH.
Many factors can contribute to the process that leads to the different types of PH.
Group 1 pulmonary arterial hypertension (PAH) may have no known cause, or the condition may be inherited. (“Inherited” means the condition is passed from parents to children through genes.)
Some diseases and conditions also can cause group 1 PAH. Examples include HIV infection, congenital heart disease, and sickle cell disease. Also, the use of street drugs (such as cocaine) and certain diet medicines can lead to PAH.
Many diseases and conditions can cause groups 2 through 5 PH (often called secondary PH), including:
•Mitral valve disease
•Lung diseases, such as COPD (chronic obstructive pulmonary disease)
•Sleep apnea
•Sarcoidosis
For more information about the types of PH and the diseases, conditions, and factors that can cause them, go to “Types of Pulmonary Hypertension.”
Source: National Heart Lung and Blood Institute
Who Is at Risk for Pulmonary Hypertension?
The exact number of people who have pulmonary hypertension (PH) isn’t known.
Group 1 pulmonary arterial hypertension (PAH) without a known cause is rare. It affects women more often than men. People who have group 1 PAH tend to be overweight.
PH that occurs with another disease or condition is more common.
PH usually develops between the ages of 20 and 60, but it can occur at any age. People who are at increased risk for PH include:
•Those who have a family history of the condition.
•Those who have certain diseases or conditions, such as heart and lung diseases, liver disease, HIV infection, or blood clots in the pulmonary arteries. (For more information about the diseases, conditions, and factors that cause PH, go to “Types of Pulmonary Hypertension.”)
•Those who use street drugs (such as cocaine) or certain diet medicines.
•Those who live at high altitudes.
Source: National Heart Lung and Blood Institute
What Are the Signs and Symptoms of Pulmonary Hypertension?
Signs and symptoms of pulmonary hypertension (PH) may include:
•Shortness of breath during routine activity, such as climbing two flights of stairs
•Tiredness
•Chest pain
•A racing heartbeat
•Pain on the upper right side of the abdomen
•Decreased appetite
As PH worsens, you may find it hard to do any physical activities. At this point, other signs and symptoms may include:
•Feeling light-headed, especially during physical activity
•Fainting at times
•Swelling in your legs and ankles
•A bluish color on your lips and skin
Source: National Heart Lung and Blood Institute
How Is Pulmonary Hypertension Diagnosed?
Your doctor will diagnose pulmonary hypertension (PH) based on your medical and family histories, a physical exam, and the results from tests and procedures.
PH can develop slowly. In fact, you may have it for years and not know it. This is because the condition has no early signs or symptoms.
When symptoms do occur, they’re often like those of other heart and lung conditions, such as asthma. This makes PH hard to diagnose.
Medical and Family Histories
Your doctor may ask about your signs and symptoms and how and when they began. He or she also may ask whether you have other medical conditions that can cause PH.
Your doctor will want to know whether you have any family members who have or have had PH. People who have a family history of PH are at higher risk for the condition.
Physical Exam
During the physical exam, your doctor will listen to your heart and lungs with a stethoscope. He or she also will check your ankles and legs for swelling and your lips and skin for a bluish color. These are signs of PH.
Diagnostic Tests and Procedures
Your doctor may recommend tests and procedures to confirm a diagnosis of PH and to look for its underlying cause. Your doctor also will use test results to find out the severity of your PH.
Tests and Procedures To Confirm a Diagnosis
Echocardiography. Echocardiography (EK-o-kar-de-OG-ra-fee), or echo, uses sound waves to create a moving picture of your heart. This test can estimate the pressure in your pulmonary arteries. Echo also can show the size and thickness of your right ventricle and how well it’s working.
Chest x ray. A chest x ray takes pictures of the structures in your chest, such as your heart, lungs, and blood vessels. This test can show whether your pulmonary arteries and right ventricle are enlarged.
The pulmonary arteries and right ventricle may get larger if the right ventricle has to work hard to pump blood through the pulmonary arteries.
A chest x ray also may show signs of an underlying lung disease that’s causing or contributing to PH.
EKG (electrocardiogram). An EKG is a simple, painless test that records the heart’s electrical activity. This test also shows whether your heart’s rhythm is steady or irregular. An EKG may show whether your right ventricle is enlarged or strained.
Right heart catheterization. This procedure measures the pressure in your pulmonary arteries. It also shows how well your heart is pumping blood to the rest of your body. Right heart catheterization (KATH-e-ter-ih-ZA-shun) can find any leaks between the left and right side of the heart.
During this procedure, a thin, flexible tube called a catheter is put into a blood vessel in your groin (upper thigh) or neck. The tube is threaded into the right side of your heart and into the pulmonary arteries. Through the tube, your doctor can do tests and treatments on your heart.
Tests To Look for the Underlying Cause of Pulmonary Hypertension
PH has many causes, so many tests may need to be done to find its underlying cause.
Chest CT scan. A chest computed tomography (to-MOG-ra-fee) scan, or chest CT scan, creates pictures of the structures inside your chest, such as your heart, lungs, and blood vessels. These pictures can show signs of PH or a condition that may be causing PH.
Chest MRI. Chest magnetic resonance imaging, or chest MRI, shows how your right ventricle is working. The test also shows blood flow in your lungs. Chest MRI also can help detect signs of PH or an underlying condition causing PH.
Lung function tests. Lung function tests measure how much air you can breathe in and out, how fast you can breathe air out, and how well your lungs deliver oxygen to your blood. These tests can help detect a lung disease that may be causing PH.
Polysomnogram (PSG). This test records brain activity, eye movements, heart rate, and blood pressure while you sleep. A PSG also measures the level of oxygen in your blood. A low oxygen level during sleep is common in PH, and it can make the condition worse.
A PSG usually is done while you stay overnight at a sleep center. For more information about this test, go to the Health Topics Sleep Studies article.
Lung ventilation/perfusion (VQ) scan. A lung VQ scan measures air and blood flow in your lungs. This test can help detect blood clots in your lung’s blood vessels.
Blood tests. Blood tests are used to rule out other diseases, such as HIV, liver disease, and autoimmune diseases (such as rheumatoid arthritis).
Finding Out the Severity of Pulmonary Hypertension
Exercise testing is used to find out the severity of PH. This testing consists of either a 6-minute walk test or a cardiopulmonary exercise test.
A 6-minute walk test measures the distance you can quickly walk in 6 minutes. A cardiopulmonary exercise test measures how well your lungs and heart work while you exercise on a treadmill or bicycle.
During exercise testing, your doctor will rate your activity level. Your level is linked to the severity of your PH. The rating system ranges from class 1 to class 4.
•Class 1 has no limits. You can do regular physical activities, such as walking or climbing stairs. These activities don’t cause PH symptoms, such as tiredness, shortness of breath, or chest pain.
•Class 2 has slight or mild limits. You’re comfortable while resting, but regular physical activity causes PH symptoms.
•Class 3 has marked or noticeable limits. You’re comfortable while resting. However, walking even one or two blocks or climbing one flight of stairs can cause PH symptoms.
•Class 4 has severe limits. You’re not able to do any physical activity without discomfort. You also may have PH symptoms while at rest.
Over time, you may need more exercise tests to find out how well your treatments are working. Each time testing is done, your doctor will compare your activity level with the previous one.
Source: National Heart Lung and Blood Institute
How Is Pulmonary Hypertension Treated?
Pulmonary hypertension (PH) has no cure. However, treatment may help relieve symptoms and slow the progress of the disease.
PH is treated with medicines, procedures, and other therapies. Treatment will depend on what type of PH you have and its severity. (For more information, go to “Types of Pulmonary Hypertension.”)
Group 1 Pulmonary Arterial Hypertension
Group 1 pulmonary arterial hypertension (PAH) includes PH that’s inherited, that has no known cause, or that’s caused by certain drugs or conditions. Treatments for group 1 PAH include medicines and medical procedures.
Medicines
Your doctor may prescribe medicines to relax the blood vessels in your lungs and reduce excess cell growth in the blood vessels. As the blood vessels relax, more blood can flow through them.
Your doctor may prescribe medicines that are taken by mouth, inhaled, or injected.
Examples of medicines for group 1 PAH include:
•Phosphodiesterase-5 inhibitors, such as sildenafil
•Prostanoids, such as epoprostenol
•Endothelin receptor antagonists, such as bosentan and ambrisentan
•Calcium channel blockers, such as diltiazem
Your doctor may prescribe one or more of these medicines. To find out which of these medicines works best, you’ll likely have an acute vasoreactivity test. This test shows how the pressure in your pulmonary arteries reacts to certain medicines. The test is done during right heart catheterization.
Medical and Surgical Procedures
If you have group 1 PAH, your doctor may recommend one or more of the following procedures.
Atrial septostomy (sep-TOS-toe-me). For this procedure, a thin, flexible tube called a catheter is put into a blood vessel in your leg and threaded to your heart. The tube is then put through the wall that separates your right and left atria (the upper chambers of your heart). This wall is called the septum.
A tiny balloon on the tip of the tube is inflated. This creates an opening between the atria. This procedure relieves the pressure in the right atria and increases blood flow. Atrial septostomy is rarely done in the United States.
Lung transplant. A lung transplant is surgery to replace a person’s diseased lung with a healthy lung from a deceased donor. This procedure may be used for people who have severe lung disease that’s causing PAH.
Heart–lung transplant. A heart–lung transplant is surgery in which both the heart and lung are replaced with healthy organs from a deceased donor.
Group 2 Pulmonary Hypertension
Conditions that affect the left side of the heart, such as mitral valve disease, can cause group 2 PH. Treating the underlying condition will help treat PH. Treatments may include lifestyle changes, medicines, and surgery.
Group 3 Pulmonary Hypertension
Lung diseases, such as COPD (chronic obstructive pulmonary disease) and interstitial lung disease, can cause group 3 PH. Certain sleep disorders, such as sleep apnea, also can cause group 3 PH.
If you have this type of PH, you may need oxygen therapy. This treatment raises the level of oxygen in your blood. You’ll likely get the oxygen through soft, plastic prongs that fit into your nose. Oxygen therapy can be done at home or in a hospital.
Your doctor also may recommend other treatments if you have an underlying lung disease.
Group 4 Pulmonary Hypertension
Blood clots in the lungs or blood clotting disorders can cause group 4 PH. If you have this type of PH, your doctor will likely prescribe blood-thinning medicines. These medicines prevent clots from forming or getting larger.
Sometimes doctors use surgery to remove scarring in the pulmonary arteries due to old blood clots.
Group 5 Pulmonary Hypertension
Various diseases and conditions, such as thyroid disease and sarcoidosis, can cause group 5 PH. An object, such as a tumor, pressing on the pulmonary arteries also can cause group 5 PH.
Group 5 PH is treated by treating its cause.
All Types of Pulmonary Hypertension
Several treatments may be used for all types of PH. These treatments include:
•Diuretics, also called water pills. These medicines help reduce fluid buildup in your body, including swelling in your ankles and feet.
•Blood-thinning medicines. These medicines help prevent blood clots from forming or getting larger.
•Digoxin. This medicine helps the heart beat stronger and pump more blood. Digoxin sometimes is used to control the heart rate if abnormal heart rhythms, such as atrial fibrillation or atrial flutter, occur.
•Oxygen therapy. This treatment raises the level of oxygen in your blood.
•Physical activity. Regular activity may help improve your ability to be active. Talk with your doctor about a physical activity plan that’s safe for you.
Research is ongoing for better PH treatments. These treatments offer hope for the future.
Source: National Heart Lung and Blood Institute
Living With Pulmonary Hypertension
Pulmonary hypertension (PH) has no cure. However, you can work with your doctor to manage your symptoms and slow the progress of the disease.
Ongoing Care
Follow your treatment plan as your doctor advises. Call your doctor if your PH symptoms worsen or change. The earlier symptoms are addressed, the easier it is to treat them.
Some symptoms, such as chest pain, may require emergency treatment. Ask your doctor when you should call him or her or seek emergency care.
Also, talk with your doctor before taking any over-the-counter medicines. Some medicines can make your PH worse or interfere with the medicines you’re taking for PH. Ask your doctor whether you should get a pneumonia vaccine and a yearly flu shot.
You may have a complex schedule for taking medicines. Call your doctor or nurse if you’re having problems with this schedule. Knowing the names of your medicines and how they work is helpful. Keep a list of your medicines with you. Don’t stop or change medicines unless you talk with your doctor first.
Pay careful attention to your weight. You may want to keep a daily record of your weight. You should weigh yourself at the same time each day. If you notice a rapid weight gain (2 or more pounds in 1 day or 5 or more pounds in 1 week), call your doctor. This may be a sign that your PH is worsening.
Pregnancy is risky for women who have PH. Consider using birth control if there is a chance you may become pregnant. Ask your doctor which birth control methods are safe for you.
Lifestyle Changes
Making lifestyle changes can help you manage your symptoms. These changes will depend on the type of PH you have. Talk with your doctor about which lifestyle changes can help you.
Quit Smoking
If you smoke, quit. Smoking makes PH symptoms worse. Ask your doctor about programs and products that can help you quit. Also, avoid exposure to secondhand smoke.
For more information about how to quit smoking, go to the Health Topics Smoking and Your Heart article and the National Heart, Lung, and Blood Institute’s (NHLBI’s) “Your Guide to a Healthy Heart.”
Although these resources focus on heart health, they both include general information about how to quit smoking.
Follow a Healthy Diet
Following a healthy diet and maintaining a healthy weight are part of a healthy lifestyle. A healthy diet includes a variety of fruits, vegetables, and whole grains. It also includes lean meats, poultry, fish, and fat-free or low-fat milk or milk products. A healthy diet also is low in saturated fat, trans fat, cholesterol, sodium (salt), and added sugar.
Talk with your doctor about whether you need to limit the amount of salt and fluids in your diet. Ask him or her whether you also need to regulate foods that contain vitamin K. These foods can affect how well blood-thinning medicines work. Vitamin K is found in green leafy vegetables and some oils, such as canola and soybean oil.
For more information about following a healthy diet, go to the NHLBI’s Aim for a Healthy Weight Web site, “Your Guide to a Healthy Heart,” and “Your Guide to Lowering Your Blood Pressure With DASH.”
All of these resources include general advice about healthy eating. The DASH eating plan focuses on reduced-sodium foods, which may be helpful if your doctor advises you to limit the salt in your diet.
Be Physically Active
Physical activity is an important part of a healthy lifestyle. Try to do physical activity, such as walking, regularly. This will keep your muscles strong and help you stay active. Ask your doctor how much activity is safe for you. Your doctor may tell you to limit or avoid certain activities, such as:
•Those that cause straining, such as lifting heavy objects or weights.
•Sitting in a hot tub or sauna or taking long baths. These activities can lower your blood pressure too much.
•Flying in an airplane or traveling to high-altitude areas. Your doctor may ask you to use extra oxygen during air travel.
Avoid activities that cause breathing problems, dizziness, or chest pain. If you have any of these symptoms, seek care right away.
Emotional Issues and Support
Living with PH may cause fear, anxiety, depression, and stress. You may worry about your medical condition, treatment, finances, and other issues.
Talk about how you feel with your health care team. Talking to a professional counselor also can help. If you’re very depressed, your doctor may recommend medicines or other treatments that can improve your quality of life.
Joining a patient support group may help you adjust to living with PH. You can see how other people who have the same symptoms have coped with them. Talk with your doctor about local support groups or check with an area medical center.
Support from family and friends also can help relieve stress and anxiety. Let your loved ones know how you feel and what they can do to help you.
Source: National Heart Lung and Blood Institute
Clinical Trials
The National Heart, Lung, and Blood Institute (NHLBI) is strongly committed to supporting research aimed at preventing and treating heart, lung, and blood diseases and conditions and sleep disorders.
NHLBI-supported research has led to many advances in medical knowledge and care. For example, this research has uncovered some of the causes of lung diseases and conditions, as well as ways to prevent or treat them.
Many more questions remain about lung diseases and conditions, including pulmonary hypertension (PH). The NHLBI continues to support research aimed at learning more about these diseases and conditions. For example, NHLBI-supported research on PH includes studies that explore:
•How often people who have sickle cell anemia develop PH
•Which genetic mutations (changes in the genes) cause PH
•The risks and benefits of genetic testing in people who come from families at high risk for PH
•How certain medicines and therapies can help treat PH and improve quality of life for people who have the disease
Much of this research depends on the willingness of volunteers to take part in clinical trials. Clinical trials test new ways to prevent, diagnose, or treat various diseases and conditions.
For example, new treatments for a disease or condition (such as medicines, medical devices, surgeries, or procedures) are tested in volunteers who have the illness. Testing shows whether a treatment is safe and effective in humans before it is made available for widespread use.
By taking part in a clinical trial, you can gain access to new treatments before they’re widely available. You also will have the support of a team of health care providers, who will likely monitor your health closely. Even if you don’t directly benefit from the results of a clinical trial, the information gathered can help others and add to scientific knowledge.
If you volunteer for a clinical trial, the research will be explained to you in detail. You’ll learn about treatments and tests you may receive, and the benefits and risks they may pose. You’ll also be given a chance to ask questions about the research. This process is called informed consent.
If you agree to take part in the trial, you’ll be asked to sign an informed consent form. This form is not a contract. You have the right to withdraw from a study at any time, for any reason. Also, you have the right to learn about new risks or findings that emerge during the trial.
For more information about clinical trials related to PH, talk with your doctor. You also can visit the following Web sites to learn more about clinical research and to search for clinical trials:
•http://clinicalresearch.nih.gov
•www.clinicaltrials.gov
•www.nhlbi.nih.gov/studies/index.htm
•www.researchmatch.org
For more information about clinical trials for children, visit the NHLBI’s Children and Clinical Studies Web page.
Bronchitis
What Is Bronchitis?
Bronchitis (bron-KI-tis) is a condition in which the bronchial tubes become inflamed. These tubes carry air to your lungs. (For more information about the bronchial tubes and airways, go to the Health Topics How the Lungs Work article.)
People who have bronchitis often have a cough that brings up mucus. Mucus is a slimy substance made by the lining of the bronchial tubes. Bronchitis also may cause wheezing (a whistling or squeaky sound when you breathe), chest pain or discomfort, a low fever, and shortness of breath.
Bronchitis
Figure A shows the location of the lungs and bronchial tubes in the body. Figure B is an enlarged, detailed view of a normal bronchial tube. Figure C is an enlarged, detailed view of a bronchial tube with bronchitis. The tube is inflamed and contains more mucus than usual.
Overview
The two main types of bronchitis are acute (short term) and chronic (ongoing).
Acute Bronchitis
Infections or lung irritants cause acute bronchitis. The same viruses that cause colds and the flu are the most common cause of acute bronchitis. These viruses are spread through the air when people cough. They also are spread through physical contact (for example, on hands that have not been washed).
Sometimes bacteria cause acute bronchitis.
Acute bronchitis lasts from a few days to 10 days. However, coughing may last for several weeks after the infection is gone.
Several factors increase your risk for acute bronchitis. Examples include exposure to tobacco smoke (including secondhand smoke), dust, fumes, vapors, and air pollution. Avoiding these lung irritants as much as possible can help lower your risk for acute bronchitis.
Most cases of acute bronchitis go away within a few days. If you think you have acute bronchitis, see your doctor. He or she will want to rule out other, more serious health conditions that require medical care.
Chronic Bronchitis
Chronic bronchitis is an ongoing, serious condition. It occurs if the lining of the bronchial tubes is constantly irritated and inflamed, causing a long-term cough with mucus. Smoking is the main cause of chronic bronchitis.
Viruses or bacteria can easily infect the irritated bronchial tubes. If this happens, the condition worsens and lasts longer. As a result, people who have chronic bronchitis have periods when symptoms get much worse than usual.
Chronic bronchitis is a serious, long-term medical condition. Early diagnosis and treatment, combined with quitting smoking and avoiding secondhand smoke, can improve quality of life. The chance of complete recovery is low for people who have severe chronic bronchitis.
Source: National Heart Lung and Blood Institute
Other Names for Bronchitis
•Acute bronchitis
•Chronic bronchitis
•Industrial bronchitis
Source: National Heart Lung and Blood Institute
What Causes Bronchitis?
Acute Bronchitis
Infections or lung irritants cause acute bronchitis. The same viruses that cause colds and the flu are the most common cause of acute bronchitis. Sometimes bacteria can cause the condition.
Certain substances can irritate your lungs and airways and raise your risk for acute bronchitis. For example, inhaling or being exposed to tobacco smoke, dust, fumes, vapors, or air pollution raises your risk for the condition. These lung irritants also can make symptoms worse.
Being exposed to a high level of dust or fumes, such as from an explosion or a big fire, also may lead to acute bronchitis.
Chronic Bronchitis
Repeatedly breathing in fumes that irritate and damage lung and airway tissues causes chronic bronchitis. Smoking is the major cause of the condition.
Breathing in air pollution and dust or fumes from the environment or workplace also can lead to chronic bronchitis.
People who have chronic bronchitis go through periods when symptoms become much worse than usual. During these times, they also may have acute viral or bacterial bronchitis.
Source: National Heart Lung and Blood Institute
Who Is at Risk for Bronchitis?
Bronchitis is a very common condition. Millions of cases occur every year.
Elderly people, infants, and young children are at higher risk for acute bronchitis than people in other age groups.
People of all ages can develop chronic bronchitis, but it occurs more often in people who are older than 45. Also, many adults who develop chronic bronchitis are smokers. Women are more than twice as likely as men to be diagnosed with chronic bronchitis.
Smoking and having an existing lung disease greatly increase your risk for bronchitis. Contact with dust, chemical fumes, and vapors from certain jobs also increases your risk for the condition. Examples include jobs in coal mining, textile manufacturing, grain handling, and livestock farming.
Air pollution, infections, and allergies can worsen the symptoms of chronic bronchitis, especially if you smoke.
Source: National Heart Lung and Blood Institute
What Are the Signs and Symptoms of Bronchitis?
Acute Bronchitis
Acute bronchitis caused by an infection usually develops after you already have a cold or the flu. Symptoms of a cold or the flu include sore throat, fatigue (tiredness), fever, body aches, stuffy or runny nose, vomiting, and diarrhea.
The main symptom of acute bronchitis is a persistent cough, which may last 10 to 20 days. The cough may produce clear mucus (a slimy substance). If the mucus is yellow or green, you may have a bacterial infection as well. Even after the infection clears up, you may still have a dry cough for days or weeks.
Other symptoms of acute bronchitis include wheezing (a whistling or squeaky sound when you breathe), low fever, and chest tightness or pain.
If your acute bronchitis is severe, you also may have shortness of breath, especially with physical activity.
Chronic Bronchitis
The signs and symptoms of chronic bronchitis include coughing, wheezing, and chest discomfort. The coughing may produce large amounts of mucus. This type of cough often is called a smoker’s cough.
Source: National Heart Lung and Blood Institute
How Is Bronchitis Diagnosed?
Your doctor usually will diagnose bronchitis based on your signs and symptoms. He or she may ask questions about your cough, such as how long you’ve had it, what you’re coughing up, and how much you cough.
Your doctor also will likely ask:
•About your medical history
•Whether you’ve recently had a cold or the flu
•Whether you smoke or spend time around others who smoke
•Whether you’ve been exposed to dust, fumes, vapors, or air pollution
Your doctor will use a stethoscope to listen for wheezing (a whistling or squeaky sound when you breathe) or other abnormal sounds in your lungs. He or she also may:
•Look at your mucus to see whether you have a bacterial infection
•Test the oxygen levels in your blood using a sensor attached to your fingertip or toe
•Recommend a chest x ray, lung function tests, or blood tests
Source: National Heart Lung and Blood Institute
How Is Bronchitis Treated?
The main goals of treating acute and chronic bronchitis are to relieve symptoms and make breathing easier.
If you have acute bronchitis, your doctor may recommend rest, plenty of fluids, and aspirin (for adults) or acetaminophen to treat fever.
Antibiotics usually aren’t prescribed for acute bronchitis. This is because they don’t work against viruses—the most common cause of acute bronchitis. However, if your doctor thinks you have a bacterial infection, he or she may prescribe antibiotics.
A humidifier or steam can help loosen mucus and relieve wheezing and limited air flow. If your bronchitis causes wheezing, you may need an inhaled medicine to open your airways. You take this medicine using an inhaler. This device allows the medicine to go straight to your lungs.
Your doctor also may prescribe medicines to relieve or reduce your cough and treat your inflamed airways (especially if your cough persists).
If you have chronic bronchitis and also have been diagnosed with COPD (chronic obstructive pulmonary disease), you may need medicines to open your airways and help clear away mucus. These medicines include bronchodilators (inhaled) and steroids (inhaled or pill form).
If you have chronic bronchitis, your doctor may prescribe oxygen therapy. This treatment can help you breathe easier, and it provides your body with needed oxygen.
One of the best ways to treat acute and chronic bronchitis is to remove the source of irritation and damage to your lungs. If you smoke, it’s very important to quit.
Talk with your doctor about programs and products that can help you quit smoking. Try to avoid secondhand smoke and other lung irritants, such as dust, fumes, vapors, and air pollution.
For more information about how to quit smoking, go to the Health Topics Smoking and Your Heart article and the National Heart, Lung, and Blood Institute’s “Your Guide to a Healthy Heart.” Although these resources focus on heart health, they include general information about how to quit smoking.
Source: National Heart Lung and Blood Institute
How Can Bronchitis Be Prevented?
You can’t always prevent acute or chronic bronchitis. However, you can take steps to lower your risk for both conditions. The most important step is to quit smoking or not start smoking.
For more information about how to quit smoking, go to the Health Topics Smoking and Your Heart article and the National Heart, Lung, and Blood Institute’s “Your Guide to a Healthy Heart.” Although these resources focus on heart health, they include general information about how to quit smoking.
Also, try to avoid other lung irritants, such as secondhand smoke, dust, fumes, vapors, and air pollution. For example, wear a mask over your mouth and nose when you use paint, paint remover, varnish, or other substances with strong fumes. This will help protect your lungs.
Wash your hands often to limit your exposure to germs and bacteria. Your doctor also may advise you to get a yearly flu shot and a pneumonia vaccine
Source: National Heart Lung and Blood Institute
Living With Chronic Bronchitis
If you have chronic bronchitis, you can take steps to control your symptoms. Lifestyle changes and ongoing care can help you manage the condition.
Lifestyle Changes
The most important step is to not start smoking or to quit smoking. Talk with your doctor about programs and products that can help you quit.
For more information about how to quit smoking, go to the Health Topics Smoking and Your Heart article and the National Heart, Lung, and Blood Institute’s (NHLBI’s) “Your Guide to a Healthy Heart.” Although these resources focus on heart health, they include general information about how to quit smoking.
Also, try to avoid other lung irritants, such as secondhand smoke, dust, fumes, vapors, and air pollution. This will help keep your lungs healthy.
Wash your hands often to lower your risk for a viral or bacterial infection. Also, try to stay away from people who have colds or the flu. See your doctor right away if you have signs or symptoms of a cold or the flu.
Follow a healthy diet and be as physically active as you can. A healthy diet includes a variety of fruits, vegetables, and whole grains. It also includes lean meats, poultry, fish, and fat-free or low-fat milk or milk products. A healthy diet also is low in saturated fat, trans fat, cholesterol, sodium (salt), and added sugar.
For more information about following a healthy diet, go to the NHLBI’s Aim for a Healthy Weight Web site, “Your Guide to a Healthy Heart,” and “Your Guide to Lowering Your Blood Pressure With DASH.” All of these resources include general advice about healthy eating.
Ongoing Care
See your doctor regularly and take all of your medicines as prescribed. Also, talk with your doctor about getting a yearly flu shot and a pneumonia vaccine.
If you have chronic bronchitis, you may benefit from pulmonary rehabilitation (PR). PR is a broad program that helps improve the well-being of people who have chronic (ongoing) breathing problems.
People who have chronic bronchitis often breathe fast. Talk with your doctor about a breathing method called pursed-lip breathing. This method decreases how often you take breaths, and it helps keep your airways open longer. This allows more air to flow in and out of your lungs so you can be more physically active.
To do pursed-lip breathing, you breathe in through your nostrils. Then you slowly breathe out through slightly pursed lips, as if you’re blowing out a candle. You exhale two to three times longer than you inhale. Some people find it helpful to count to two while inhaling and to four or six while exhaling.
Source: National Heart Lung and Blood Institute
Clinical Trials
The National Heart, Lung, and Blood Institute (NHLBI) is strongly committed to supporting research aimed at preventing and treating heart, lung, and blood diseases and conditions and sleep disorders.
NHLBI-supported research has led to many advances in medical knowledge and care. Often, these advances depend on the willingness of volunteers to take part in clinical trials.
Clinical trials test new ways to prevent, diagnose, or treat various diseases and conditions. For example, new treatments for a disease or condition (such as medicines, medical devices, surgeries, or procedures) are tested in volunteers who have the illness. Testing shows whether a treatment is safe and effective in humans before it is made available for widespread use.
By taking part in a clinical trial, you can gain access to new treatments before they’re widely available. You also will have the support of a team of health care providers, who will likely monitor your health closely. Even if you don’t directly benefit from the results of a clinical trial, the information gathered can help others and add to scientific knowledge.
If you volunteer for a clinical trial, the research will be explained to you in detail. You’ll learn about treatments and tests you may receive, and the benefits and risks they may pose. You’ll also be given a chance to ask questions about the research. This process is called informed consent.
If you agree to take part in the trial, you’ll be asked to sign an informed consent form. This form is not a contract. You have the right to withdraw from a study at any time, for any reason. Also, you have the right to learn about new risks or findings that emerge during the trial.
For more information about clinical trials related to bronchitis, talk with your doctor. You also can visit the following Web sites to learn more about clinical research and to search for clinical trials:
•http://clinicalresearch.nih.gov
•www.clinicaltrials.gov
•www.nhlbi.nih.gov/studies/index.htm
•www.researchmatch.org
For more information about clinical trials for children, visit the NHLBI’s Children and Clinical Studies Web page.
Cough
What Is Cough?
A cough is a natural reflex that protects your lungs. Coughing helps clear your airways of lung irritants, such as smoke and mucus (a slimy substance). This helps prevent infections. A cough also can be a symptom of a medical problem.
Prolonged coughing can cause unpleasant side effects, such as chest pain, exhaustion, light-headedness, and loss of bladder control. Coughing also can interfere with sleep, socializing, and work.
Overview
Coughing occurs when the nerve endings in your airways become irritated. The airways are tubes that carry air into and out of your lungs. Certain substances (such as smoke and pollen), medical conditions, and medicines can irritate these nerve endings.
A cough can be acute, subacute, or chronic, depending on how long it lasts.
An acute cough lasts less than 3 weeks. Common causes of an acute cough are a common cold or other upper respiratory (RES-pi-rah-tor-e) infections. Examples of other upper respiratory infections include the flu, pneumonia (nu-MO-ne-ah), and whooping cough.
A subacute cough lasts 3 to 8 weeks. This type of cough remains even after a cold or other respiratory infection is over.
A chronic cough lasts more than 8 weeks. Common causes of a chronic cough are upper airway cough syndrome (UACS); asthma; and gastroesophageal (GAS-tro-eh-so-fa-JE-al) reflux disease, or GERD.
“UACS” is a term used to describe conditions that inflame the upper airways and cause a cough. Examples include sinus infections and allergies. These conditions can cause mucus to run down your throat from the back of your nose. This is called postnasal drip.
Asthma is a long-term lung disease that inflames and narrows the airways. GERD occurs if acid from your stomach backs up into your throat.
Outlook
The best way to treat a cough is to treat its cause. For example, asthma is treated with medicines that open the airways.
Your doctor may recommend cough medicine if the cause of your cough is unknown and the cough causes a lot of discomfort. Cough medicines may harm children. If your child has a cough, talk with his or her doctor about how to treat it.
Source: National Heart Lung and Blood Institute
What Causes Cough?
Coughing occurs when the nerve endings in your airways become irritated. Certain irritants and allergens, medical conditions, and medicines can irritate these nerve endings.
Irritants and Allergens
An irritant is something you’re sensitive to. For example, smoking or inhaling secondhand smoke can irritate your lungs. Smoking also can lead to medical conditions that can cause a cough. Other irritants include air pollution, paint fumes, or scented products like perfumes or air fresheners.
An allergen is something you’re allergic to, such as dust, animal dander, mold, or pollens from trees, grasses, and flowers.
Coughing helps clear your airways of irritants and allergens. This helps prevent infections.
Medical Conditions
Many medical conditions can cause acute, subacute, or chronic cough.
Common causes of an acute cough are a common cold or other upper respiratory infections. Examples of other upper respiratory infections include the flu, pneumonia, and whooping cough. An acute cough lasts less than 3 weeks.
A lingering cough that remains after a cold or other respiratory infection is gone often is called a subacute cough. A subacute cough lasts 3 to 8 weeks.
Common causes of a chronic cough are upper airway cough syndrome (UACS), asthma, and gastroesophageal reflux disease (GERD). A chronic cough lasts more than 8 weeks.
“UACS” is a term used to describe conditions that inflame the upper airways and cause a cough. Examples include sinus infections and allergies. These conditions can cause mucus (a slimy substance) to run down your throat from the back of your nose. This is called postnasal drip.
Asthma is a long-term lung disease that inflames and narrows the airways. GERD is a condition in which acid from your stomach backs up into your throat.
Other conditions that can cause a chronic cough include:
•Respiratory infections. A cough from an upper respiratory infection can develop into a chronic cough.
•Chronic bronchitis (bron-KI-tis). This condition occurs if the lining of the airways is constantly irritated and inflamed. Smoking is the main cause of chronic bronchitis.
•Bronchiectasis (brong-ke-EK-tah-sis). This is a condition in which damage to the airways causes them to widen and become flabby and scarred. This prevents the airways from properly moving mucus out of your lungs. An infection or other condition that injures the walls of the airways usually causes bronchiectasis.
•COPD (chronic obstructive pulmonary disease). COPD is a disease that prevents enough air from flowing in and out of the airways.
•Lung cancer. In rare cases, a chronic cough is due to lung cancer. Most people who develop lung cancer smoke or used to smoke.
•Heart failure. Heart failure is a condition in which the heart can’t pump enough blood to meet the body’s needs. Fluid can build up in the body and lead to many symptoms. If fluid builds up in the lungs, it can cause a chronic cough.
Medicines
Certain medicines can cause a chronic cough. Examples of these medicines are ACE inhibitors and beta blockers. ACE inhibitors are used to treat high blood pressure (HBP). Beta blockers are used to treat HBP, migraine headaches, and glaucoma.
Source: National Heart Lung and Blood Institute
Who Is At Risk for Cough?
People at risk for cough include those who:
•Are exposed to things that irritate their airways (called irritants) or things that they’re allergic to (called allergens). Examples of irritants are cigarette smoke, air pollution, paint fumes, and scented products. Examples of allergens are dust, animal dander, mold, and pollens from trees, grasses, and flowers.
•Have certain conditions that irritate the lungs, such as asthma, sinus infections, colds, or gastroesophageal reflux disease.
•Smoke. Smoking can irritate your lungs and cause coughing. Smoking and/or exposure to secondhand smoke also can lead to medical conditions that can cause a cough.
•Take certain medicines, such as ACE inhibitors and beta blockers. ACE inhibitors are used to treat high blood pressure (HBP). Beta blockers are used to treat HBP, migraine headaches, and glaucoma.
Women are more likely than men to develop a chronic cough. For more information about the substances and conditions that put you at risk for cough, go to “What Causes Cough?”
Source: National Heart Lung and Blood Institute
What Are the Signs and Symptoms of Cough?
When you cough, mucus (a slimy substance) may come up. Coughing helps clear the mucus in your airways from a cold, bronchitis, or other condition. Rarely, people cough up blood. If this happens, you should call your doctor right away.
A cough may be a symptom of a medical condition. Thus, it may occur with other signs and symptoms of that condition. For example, if you have a cold, you may have a runny or stuffy nose. If you have gastroesophageal reflux disease, you may have a sour taste in your mouth.
A chronic cough can make you feel tired because you use a lot of energy to cough. It also can prevent you from sleeping well and interfere with work and socializing. A chronic cough also can cause headaches, chest pain, loss of bladder control, sweating, and, rarely, fractured ribs.
Source: National Heart Lung and Blood Institute
How Is the Cause of Cough Diagnosed?
Your doctor will diagnose the cause of your cough based on your medical history, a physical exam, and test results.
Medical History
Your doctor will likely ask questions about your cough. He or she may ask how long you’ve had it, whether you’re coughing anything up (such as mucus, a slimy substance), and how much you cough.
Your doctor also may ask:
•About your medical history, including whether you have allergies, asthma, or other medical conditions.
•Whether you have heartburn or a sour taste in your mouth. These may be signs of gastroesophageal reflux disease (GERD).
•Whether you’ve recently had a cold or the flu.
•Whether you smoke or spend time around others who smoke.
•Whether you’ve been around air pollution, a lot of dust, or fumes.
Physical Exam
To check for signs of problems related to cough, your doctor will use a stethoscope to listen to your lungs. He or she will listen for wheezing (a whistling or squeaky sound when you breathe) or other abnormal sounds.
Diagnostic Tests
Your doctor may recommend tests based on the results of your medical history and physical exam. For example, if you have symptoms of GERD, your doctor may recommend a pH probe. This test measures the acid level of the fluid in your throat.
Other tests may include:
•An exam of the mucus from your nose or throat. This test can show whether you have a bacterial infection.
•A chest x ray. A chest x ray takes a picture of your heart and lungs. This test can help diagnose conditions such as pneumonia and lung cancer.
•Lung function tests. These tests measure how much air you can breathe in and out, how fast you can breathe air out, and how well your lungs deliver oxygen to your blood. Lung function tests can help diagnose asthma and other conditions.
•An x ray of the sinuses. This test can help diagnose a sinus infection.
Source: National Heart Lung and Blood Institute
How Is Cough Treated?
The best way to treat a cough is to treat its cause. However, sometimes the cause is unknown. Other treatments, such as medicines and a vaporizer, can help relieve the cough itself.
Treating the Cause of a Cough
Acute and Subacute Cough
An acute cough lasts less than 3 weeks. Common causes of an acute cough are a common cold or other upper respiratory infections. Examples of other upper respiratory infections include the flu, pneumonia, and whooping cough. An acute cough usually goes away after the illness that caused it is over.
A subacute cough lasts 3 to 8 weeks. This type of cough remains even after a cold or other respiratory infection is over.
Studies show that antibiotics and cold medicines can’t cure a cold. However, your doctor may prescribe medicines to treat another cause of an acute or subacute cough. For example, antibiotics may be given for pneumonia.
Chronic Cough
A chronic cough lasts more than 8 weeks. Common causes of a chronic cough are upper airway cough syndrome (UACS), asthma, and gastroesophageal reflux disease (GERD).
“UACS” is a term used to describe conditions that inflame the upper airways and cause a cough. Examples include sinus infections and allergies. These conditions can cause mucus (a slimy substance) to run down your throat from the back of your nose. This is called postnasal drip.
If you have a sinus infection, your doctor may prescribe antibiotics. He or she also may suggest you use a medicine that you spray into your nose. If allergies are causing your cough, your doctor may advise you to avoid the substances that you’re allergic to (allergens) if possible.
If you have asthma, try to avoid irritants and allergens that make your asthma worse. Take your asthma medicines as your doctor prescribes.
GERD occurs if acid from your stomach backs up into your throat. Your doctor may prescribe a medicine to reduce acid in your stomach. You also may be able to relieve GERD symptoms by waiting 3 to 4 hours after a meal before lying down, and by sleeping with your head raised.
Smoking also can cause a chronic cough. If you smoke, it’s important to quit. Talk with your doctor about programs and products that can help you quit smoking. Also, try to avoid secondhand smoke.
Many hospitals have programs that help people quit smoking, or hospital staff can refer you to a program. The Health Topics Smoking and Your Heart article and the National Heart, Lung, and Blood Institute’s “Your Guide to a Healthy Heart” booklet have more information about how to quit smoking.
Other causes of a chronic cough include respiratory infections, chronic bronchitis, bronchiectasis, lung cancer, and heart failure. Treatments for these causes may include medicines, procedures, and other therapies. Treatment also may include avoiding irritants and allergens and quitting smoking.
If your chronic cough is due to a medicine you’re taking, your doctor may prescribe a different medicine.
Treating the Cough Rather Than the Cause
Coughing is important because it helps clear your airways of irritants, such as smoke and mucus (a slimy substance). Coughing also helps prevent infections.
Cough medicines usually are used only when the cause of the cough is unknown and the cough causes a lot of discomfort.
Medicines can help control a cough and make it easier to cough up mucus. Your doctor may recommend medicines such as:
•Prescription cough suppressants, also called antitussives. These medicines can help relieve a cough. However, they’re usually used when nothing else works. No evidence shows that over-the-counter cough suppressants relieve a cough.
•Expectorants. These medicines may loosen mucus, making it easier to cough up.
•Bronchodilators. These medicines relax your airways.
Other treatments also may relieve an irritated throat and loosen mucus. Examples include using a cool-mist humidifier or steam vaporizer and drinking enough fluids. Examples of fluids are water, soup, and juice. Ask your doctor how much fluid you need.
Cough in Children
No evidence shows that cough and cold medicines help children recover more quickly from colds. These medicines can even harm children. Talk with your child’s doctor about your child’s cough and how to treat it.
Source: National Heart Lung and Blood Institute
Living With Cough
If you have a cough, you can take steps to recover from the condition that’s causing the cough. You also can take steps to relieve your cough. Ongoing care and lifestyle changes can help you.
Ongoing Care
Follow the treatment plan your doctor gives you for treating the cause of your cough. Take all medicines as your doctor prescribes. If you’re using antibiotics, continue to take the medicine until it’s all gone. You may start to feel better before you finish the medicine, but you should continue to take it.
Ask your doctor about ways to relieve your cough. He or she may recommend cough medicines. These medicines usually are used only when the cause of a cough is unknown and the cough is causing a lot of discomfort.
A cool-mist humidifier or steam vaporizer may help relieve an irritated throat and loosen mucus. Getting enough fluids (for example, water, soup, or juice) may have the same effect. Ask your doctor about how much fluid you need.
Your doctor will let you know when to schedule followup care.
Lifestyle Changes
If you smoke, quit. Ask your doctor about programs and products that can help you quit smoking. The Health Topics Smoking and Your Heart article and the National Heart, Lung, and Blood Institute’s “Your Guide to a Healthy Heart” booklet have more information about how to quit smoking.
Try to avoid irritants and allergens that make you cough. Examples of irritants include cigarette smoke, air pollution, paint fumes, and scented products like perfumes or air fresheners. Examples of allergens include dust, animal dander, mold, and pollens from trees, grasses, and flowers.
Follow a healthy diet and be as physically active as you can. A healthy diet includes a variety of fruits, vegetables, and whole grains. It also includes lean meats, poultry, fish, and fat-free or low-fat milk or milk products. A healthy diet also is low in saturated fat, trans fat, cholesterol, sodium (salt), and added sugar.
For more information about following a healthy diet, go to the National Heart, Lung, and Blood Institute’s Aim for a Healthy Weight Web site, “Your Guide to a Healthy Heart,” and “Your Guide to Lowering Your Blood Pressure With DASH.” All of these resources include general advice about healthy eating.
Source: National Heart Lung and Blood Institute
Clinical Trials
The National Heart, Lung, and Blood Institute (NHLBI) is strongly committed to supporting research aimed at preventing and treating heart, lung, and blood diseases and conditions and sleep disorders.
NHLBI-supported research has led to many advances in medical knowledge and care. Often, these advances depend on the willingness of volunteers to take part in clinical trials.
Clinical trials test new ways to prevent, diagnose, or treat various diseases and conditions. For example, new treatments for a disease or condition (such as medicines, medical devices, surgeries, or procedures) are tested in volunteers who have the illness. Testing shows whether a treatment is safe and effective in humans before it is made available for widespread use.
By taking part in a clinical trial, you can gain access to new treatments before they’re widely available. You also will have the support of a team of health care providers, who will likely monitor your health closely. Even if you don’t directly benefit from the results of a clinical trial, the information gathered can help others and add to scientific knowledge.
If you volunteer for a clinical trial, the research will be explained to you in detail. You’ll learn about treatments and tests you may receive, and the benefits and risks they may pose. You’ll also be given a chance to ask questions about the research. This process is called informed consent.
If you agree to take part in the trial, you’ll be asked to sign an informed consent form. This form is not a contract. You have the right to withdraw from a study at any time, for any reason. Also, you have the right to learn about new risks or findings that emerge during the trial.
For more information about clinical trials related to your disease or condition, talk with your doctor. You also can visit the following Web sites to learn more about clinical research and to search for clinical trials:
•http://clinicalresearch.nih.gov
•www.clinicaltrials.gov
•www.nhlbi.nih.gov/studies/index.htm
•www.researchmatch.org
For more information about clinical trials for children, visit the NHLBI’s Children and Clinical Studies Web page.
Pulmonary Fibrosis
What Is Idiopathic Pulmonary Fibrosis?
Pulmonary fibrosis (PULL-mun-ary fi-BRO-sis) is a disease in which tissue deep in your lungs becomes thick and stiff, or scarred, over time. The formation of scar tissue is called fibrosis.
As the lung tissue thickens, your lungs can’t properly move oxygen into your bloodstream. As a result, your brain and other organs don’t get the oxygen they need. (For more information, go to the “How the Lungs Work” section of this article.)
Sometimes doctors can find out what’s causing fibrosis. But in most cases, they can’t find a cause. They call these cases idiopathic (id-ee-o-PATH-ick) pulmonary fibrosis (IPF).
IPF is a serious disease that usually affects middle-aged and older adults. IPF varies from person to person. In some people, fibrosis happens quickly. In others, the process is much slower. In some people, the disease stays the same for years.
IPF has no cure yet. Many people live only about 3 to 5 years after diagnosis. The most common cause of death related to IPF is respiratory failure. Other causes of death include pulmonary hypertension (HI-per-TEN-shun), heart failure, pulmonary embolism (EM-bo-lizm), pneumonia (nu-MO-ne-ah), and lung cancer.
Genetics may play a role in causing IPF. If more than one member of your family has IPF, the disease is called familial IPF.
Research has helped doctors learn more about IPF. As a result, they can more quickly diagnose the disease now than in the past. Also, researchers are studying several medicines that may slow the progress of IPF. These efforts may improve the lifespan and quality of life for people who have the disease.
Source: National Heart Lung and Blood Institute
How the Lungs Work
To understand idiopathic pulmonary fibrosis (IPF), it helps to understand how the lungs work. The air that you breathe in through your nose or mouth travels down through your trachea (windpipe) into two tubes in your lungs called bronchial (BRONG-ke-al) tubes or airways.
The airways are shaped like an upside-down tree with many branches. The windpipe is the trunk. It splits into two bronchial tubes, or bronchi. Thinner tubes called bronchioles branch out from the bronchi.
The bronchioles end in tiny air sacs called alveoli (al-VEE-uhl-eye). These air sacs have very thin walls, and small blood vessels called capillaries run through them. There are about 300 million alveoli in a normal lung.
When the air that you’ve just breathed in reaches these air sacs, the oxygen in the air passes through the air sac walls into the blood in the capillaries. At the same time, carbon dioxide (a waste gas) moves from the capillaries into the air sacs. This process is called gas exchange.
The oxygen-rich blood in the capillaries then flows into larger veins, which carry it to the heart. Your heart pumps the oxygen-rich blood to all your body’s organs. These organs can’t function without an ongoing supply of oxygen.
The animation below shows how the lungs work. Click the “start” button to play the animation. Written and spoken explanations are provided with each frame. Use the buttons in the lower right corner to pause, restart, or replay the animation, or use the scroll bar below the buttons to move through the frames.
The animation shows how the lungs inhale oxygen and transfer it to the blood. It also shows how carbon dioxide (a waste product) is removed from the blood and exhaled.
In IPF, scarring begins in the air sac walls and the spaces around them. The scarring makes the walls of the air sacs thicker. This makes it harder for oxygen to pass through the air sac walls into the bloodstream.
Idiopathic Pulmonary Fibrosis
Figure A shows the location of the lungs and airways in the body. The inset image shows a detailed view of the lung’s airways and air sacs in cross-section. Figure B shows fibrosis (scarring) in the lungs. The inset image shows a detailed view of the fibrosis and how it damages the airways and air sacs.
For more information about lung function, go to the Health Topics How the Lungs Work article.
Source: National Heart Lung and Blood Institute
Other Names for Idiopathic Pulmonary Fibrosis
•Idiopathic diffuse interstitial pulmonary fibrosis
•Pulmonary fibrosis of unknown cause
•Pulmonary fibrosis
•Cryptogenic fibrosing alveolitis
•Usual interstitial pneumonitis
•Diffuse fibrosing alveolitis
Source: National Heart Lung and Blood Institute
What Causes Idiopathic Pulmonary Fibrosis?
Sometimes doctors can find out what is causing pulmonary fibrosis (lung scarring). For example, exposure to environmental pollutants and certain medicines can cause the disease.
Environmental pollutants include inorganic dust (silica and hard metal dusts) and organic dust (bacteria and animal proteins).
Medicines that are known to cause pulmonary fibrosis in some people include nitrofurantoin (an antibiotic), amiodarone (a heart medicine), methotrexate and bleomycin (both chemotherapy medicines), and many other medicines.
In most cases, however, the cause of lung scarring isn’t known. These cases are called idiopathic pulmonary fibrosis (IPF). With IPF, doctors think that something inside or outside of the lungs attacks them again and again over time.
These attacks injure the lungs and scar the tissue inside and between the air sacs. This makes it harder for oxygen to pass through the air sac walls into the bloodstream.
The following factors may increase your risk of IPF:
•Cigarette smoking
•Viral infections, including Epstein-Barr virus (which causes mononucleosis), influenza A virus, hepatitis C virus, HIV, and herpes virus 6
Genetics also may play a role in causing IPF. Some families have at least two members who have IPF.
Researchers have found that 9 out of 10 people who have IPF also have gastroesophageal reflux disease (GERD). GERD is a condition in which acid from your stomach backs up into your throat.
Some people who have GERD may regularly breathe in tiny drops of acid from their stomachs. The acid can injure their lungs and lead to IPF. More research is needed to confirm this theory.
Source: National Heart Lung and Blood Institute
What Are the Signs and Symptoms of Idiopathic Pulmonary Fibrosis?
The signs and symptoms of idiopathic pulmonary fibrosis (IPF) develop over time. They may not even begin to appear until the disease has done serious damage to your lungs. Once they occur, they’re likely to get worse over time.
The most common signs and symptoms are:
•Shortness of breath. This usually is the main symptom of IPF. At first, you may be short of breath only during exercise. Over time, you’ll likely feel breathless even at rest.
•A dry, hacking cough that doesn’t get better. Over time, you may have repeated bouts of coughing that you can’t control.
Other signs and symptoms that you may develop over time include:
•Rapid, shallow breathing
•Gradual, unintended weight loss
•Fatigue (tiredness) or malaise (a general feeling of being unwell)
•Aching muscles and joints
•Clubbing, which is the widening and rounding of the tips of the fingers or toes
Clubbing
The illustration shows clubbing of the fingertips associated with idiopathic pulmonary fibrosis.
IPF may lead to other medical problems, including a collapsed lung, lung infections, blood clots in the lungs, and lung cancer.
As the disease worsens, you may develop other potentially life-threatening conditions, including respiratory failure, pulmonary hypertension, and heart failure.
Source: National Heart Lung and Blood Institute
How Is Idiopathic Pulmonary Fibrosis Diagnosed?
Idiopathic pulmonary fibrosis (IPF) causes the same kind of scarring and symptoms as some other lung diseases. This makes it hard to diagnose.
Seeking medical help as soon as you have symptoms is important. If possible, seek care from a pulmonologist. This is a doctor who specializes in diagnosing and treating lung problems.
Your doctor will diagnose IPF based on your medical history, a physical exam, and test results. Tests can help rule out other causes of your symptoms and show how badly your lungs are damaged.
Medical History
Your doctor may ask about:
•Your age
•Your history of smoking
•Things in the air at your job or elsewhere that could irritate your lungs
•Your hobbies
•Your history of legal and illegal drug use
•Other medical conditions that you have
•Your family’s medical history
•How long you’ve had symptoms
Diagnostic Tests
No single test can diagnose IPF. Your doctor may recommend several of the following tests.
Chest X Ray
A chest x ray is a painless test that creates a picture of the structures in your chest, such as your heart and lungs. This test can show shadows that suggest scar tissue. However, many people who have IPF have normal chest x rays at the time they’re diagnosed.
High-Resolution Computed Tomography
A high-resolution computed tomography scan, or HRCT scan, is an x ray that provides sharper and more detailed pictures than a standard chest x ray.
HRCT can show scar tissue and how much lung damage you have. This test can help your doctor spot IPF at an early stage or rule it out. HRCT also can help your doctor decide how likely you are to respond to treatment.
Lung Function Tests
Your doctor may suggest a breathing test called spirometry (spi-ROM-eh-tree) to find out how much lung damage you have. This test measures how much air you can blow out of your lungs after taking a deep breath. Spirometry also measures how fast you can breathe the air out.
If you have a lot of lung scarring, you won’t be able to breathe out a normal amount of air.
Pulse Oximetry
For this test, your doctor attaches a small sensor to your finger or ear. The sensor uses light to estimate how much oxygen is in your blood.
Arterial Blood Gas Test
For this test, your doctor takes a blood sample from an artery, usually in your wrist. The sample is sent to a laboratory, where its oxygen and carbon dioxide levels are measured.
This test is more accurate than pulse oximetry. The blood sample also can be tested to see whether an infection is causing your symptoms.
Skin Test for Tuberculosis
For this test, your doctor injects a substance under the top layer of skin on one of your arms. This substance reacts to tuberculosis (TB). If you have a positive reaction, a small hard lump will develop at the injection site 48 to 72 hours after the test. This test is done to rule out TB.
Exercise Testing
Exercise testing shows how well your lungs move oxygen and carbon dioxide in and out of your bloodstream when you’re active. During this test, you walk or pedal on an exercise machine for a few minutes.
An EKG (electrocardiogram) checks your heart rate, a blood pressure cuff checks your blood pressure, and a pulse oximeter shows how much oxygen is in your blood.
Your doctor may place a catheter (a flexible tube) in an artery in one of your arms to draw blood samples. These samples will provide a more precise measure of the oxygen and carbon dioxide levels in your blood.
Your doctor also may ask you to breathe into a tube that measures oxygen and carbon dioxide levels in your blood.
Lung Biopsy
For a lung biopsy, your doctor will take samples of lung tissue from several places in your lungs. The samples are examined under a microscope. A lung biopsy is the best way for your doctor to diagnose IPF.
This procedure can help your doctor rule out other conditions, such as sarcoidosis (sar-koy-DO-sis), cancer, or infection. Lung biopsy also can show your doctor how far your disease has advanced.
Doctors use several procedures to get lung tissue samples.
Video-assisted thoracoscopy (thor-ah-KOS-ko-pee). This is the most common procedure used to get lung tissue samples. Your doctor inserts a small tube with an attached light and camera into your chest through small cuts between your ribs. The tube is called an endoscope.
The endoscope provides a video image of the lungs and allows your doctor to collect tissue samples. This procedure must be done in a hospital. You’ll be given medicine to make you sleep during the procedure.
Bronchoscopy (bron-KOS-ko-pee). For a bronchoscopy, your doctor passes a thin, flexible tube through your nose or mouth, down your throat, and into your airways. At the tube’s tip are a light and mini-camera. They allow your doctor to see your windpipe and airways.
Your doctor then inserts a forceps through the tube to collect tissue samples. You’ll be given medicine to help you relax during the procedure.
Bronchoalveolar lavage (BRONG-ko-al-VE-o-lar lah-VAHZH). During bronchoscopy, your doctor may inject a small amount of salt water (saline) through the tube into your lungs. This fluid washes the lungs and helps bring up cells from the area around the air sacs. These cells are examined under a microscope.
Thoracotomy (thor-ah-KOT-o-me). For this procedure, your doctor removes a few small pieces of lung tissue through a cut in the chest wall between your ribs. Thoracotomy is done in a hospital. You’ll be given medicine to make you sleep during the procedure.
Source: National Heart Lung and Blood Institute
How Is Idiopathic Pulmonary Fibrosis Treated?
Doctors may prescribe medicines, oxygen therapy, pulmonary rehabilitation (PR), and lung transplant to treat idiopathic pulmonary fibrosis (IPF).
Medicines
Currently, no medicines are proven to slow the progression of IPF.
Prednisone, azathioprine (A-zah-THI-o-preen), and N-acetylcysteine (a-SEH-til-SIS-tee-in) have been used to treat IPF, either alone or in combination. However, experts have not found enough evidence to support their use.
Prednisone
Prednisone is an anti-inflammatory medicine. You usually take it by mouth every day. However, your doctor may give it to you through a needle or tube inserted into a vein in your arm for several days. After that, you usually take it by mouth.
Because prednisone can cause serious side effects, your doctor may prescribe it for 3 to 6 months or less at first. Then, if it works for you, your doctor may reduce the dose over time and keep you on it longer.
Azathioprine
Azathioprine suppresses your immune system. You usually take it by mouth every day. Because it can cause serious side effects, your doctor may prescribe it with prednisone for only 3 to 6 months.
If you don’t have serious side effects and the medicines seem to help you, your doctor may keep you on them longer.
N-acetylcysteine
N-acetylcysteine is an antioxidant that may help prevent lung damage. You usually take it by mouth several times a day.
A common treatment for IPF is a combination of prednisone, azathioprine, and N-acetylcysteine. However, this treatment was recently found harmful in a study funded by the National Heart, Lung, and Blood Institute (NHLBI).
If you have IPF and take this combination of medicines, talk with your doctor. Do not stop taking the medicines on your own.
The NHLBI currently supports research to compare N-acetylcysteine treatment with placebo treatment (sugar pills) in patients who have IPF.
New Medicines Being Studied
Researchers, like those in the Idiopathic Pulmonary Fibrosis Network, are studying new treatments for IPF. With the support and guidance of the NHLBI, these researchers continue to look for new IPF treatments and therapies.
Some of these researchers are studying medicines that may reduce inflammation and prevent or reduce scarring caused by IPF.
If you’re interested in joining a research study, talk with your doctor. For more information about ongoing research, go to the “Clinical Trials” section of this article.
Other Treatments
Other treatments that may help people who have IPF include the following:
•Flu and pneumonia vaccines may help prevent infections and keep you healthy.
•Cough medicines or oral codeine may relieve coughing.
•Vitamin D, calcium, and a bone-building medicine may help prevent bone loss if you’re taking prednisone or another corticosteroid.
•Anti-reflux therapy may help control gastroesophageal reflux disease (GERD). Most people who have IPF also have GERD.
Oxygen Therapy
If the amount of oxygen in your blood gets low, you may need oxygen therapy. Oxygen therapy can help reduce shortness of breath and allow you to be more active.
Oxygen usually is given through nasal prongs or a mask. At first, you may need it only during exercise and sleep. As your disease worsens, you may need it all the time.
For more information, go to the Health Topics Oxygen Therapy article.
Pulmonary Rehabilitation
PR is now a standard treatment for people who have chronic (ongoing) lung disease. PR is a broad program that helps improve the well-being of people who have breathing problems.
The program usually involves treatment by a team of specialists in a special clinic. The goal is to teach you how to manage your condition and function at your best.
PR doesn’t replace medical therapy. Instead, it’s used with medical therapy and may include:
•Exercise training
•Nutritional counseling
•Education on your lung disease or condition and how to manage it
•Energy-conserving techniques
•Breathing strategies
•Psychological counseling and/or group support
For more information, go to the Health Topics Pulmonary Rehabilitation article.
Lung Transplant
Your doctor may recommend a lung transplant if your condition is quickly worsening or very severe. A lung transplant can improve your quality of life and help you live longer.
Some medical centers will consider patients older than 65 for lung transplants if they have no other serious medical problems.
The major complications of a lung transplant are rejection and infection. (“Rejection” refers to your body creating proteins that attack the new organ.) You will have to take medicines for the rest of your life to reduce the risk of rejection.
Because the supply of donor lungs is limited, talk with your doctor about a lung transplant as soon as possible.
For more information, go to the Health Topics Lung Transplant article.
Source: National Heart Lung and Blood Institute
Living With Idiopathic Pulmonary Fibrosis
No cure is available for idiopathic pulmonary fibrosis (IPF) yet. Your symptoms may get worse over time. As your symptoms worsen, you may not be able to do many of the things that you did before you had IPF.
However, lifestyle changes and ongoing care can help you manage the disease.
Lifestyle Changes
If you’re still smoking, the most important thing you can do is quit. Talk with your doctor about programs and products that can help you quit. Also, try to avoid secondhand smoke. Ask family members and friends not to smoke in front of you or in your home, car, or workplace.
If you have trouble quitting smoking on your own, consider joining a support group. Many hospitals, workplaces, and community groups offer classes to help people quit smoking.
For more information about how to quit smoking, go to the Health Topics Smoking and Your Heart article and the National Heart, Lung, and Blood Institute’s (NHLBI’s) “Your Guide to a Healthy Heart.” Although these resources focus on heart health, they include general tips on how to quit smoking.
Staying active can help with both your physical and mental health. Physical activity can help you maintain your strength and lung function and reduce stress. Try moderate exercise, such as walking or riding a stationary bike. Ask your doctor about using oxygen while exercising.
As your condition advances, use a wheelchair or motorized scooter, or stay busy with activities that aren’t physical in nature.
You also should follow a healthy diet. A healthy diet includes a variety of fruits and vegetables. It also includes whole grains, fat-free or low-fat dairy products, and protein foods, such as lean meats, poultry without skin, seafood, processed soy products, nuts, seeds, beans, and peas.
A healthy diet is low in sodium (salt), added sugars, solid fats, and refined grains. Solid fats are saturated fat and trans fatty acids. Refined grains come from processing whole grains, which results in a loss of nutrients (such as dietary fiber).
Eating smaller, more frequent meals may relieve stomach fullness, which can make it hard to breathe. If you need help with your diet, ask your doctor to arrange for a dietitian to work with you.
For more information about following a healthy diet, go to the NHLBI’s “Your Guide to Lowering Your Blood Pressure With DASH” and the U.S. Department of Agriculture’s ChooseMyPlate.gov Web site. Both resources provide general information about healthy eating.
Getting plenty of rest can increase your energy and help you deal with the stress of living with a serious condition like IPF.
Try to maintain a positive attitude; relaxation techniques may help you do this. These techniques also may help you avoid excessive oxygen intake caused by tension or overworked muscles.
Avoid situations that can make your symptoms worse. For example, avoid traveling by air or living at or traveling to high altitudes where the air is thin and the amount of oxygen in the air is low.
Ongoing Care
If you have IPF, you will need ongoing medical care. If possible, seek treatment from a doctor who specializes in IPF. These specialists often are located at major medical centers.
Treatment may relieve your symptoms and even slow or stop the fibrosis (scarring). Follow your treatment plan as your doctor advises. For example:
•Take your medicines as your doctor prescribes
•Make any changes in diet or exercise that your doctor recommends
•Keep all of your appointments with your doctor
•Enroll in pulmonary rehabilitation
As your condition worsens, you may need oxygen therapy full time. Some people who have IPF carry portable oxygen when they go out.
Emotional Issues and Support
Living with IPF may cause fear, anxiety, depression, and stress. Talk about how you feel with your health care team. Talking to a professional counselor also can help. If you’re very depressed, your doctor may recommend medicines or other treatments that can improve your quality of life.
Joining a patient support group may help you adjust to living with IPF. You can see how other people who have the same symptoms have coped with them. Talk with your doctor about local support groups or check with an area medical center.
Support from family and friends also can help relieve stress and anxiety. Let your loved ones know how you feel and what they can do to help you.
Source: National Heart Lung and Blood Institute
Clinical Trials
The National Heart, Lung, and Blood Institute (NHLBI) is strongly committed to supporting research aimed at preventing and treating heart, lung, and blood diseases and conditions and sleep disorders.
NHLBI-supported research has led to many advances in medical knowledge and care. For example, this research has uncovered some of the causes of chronic lung diseases, as well as ways to prevent and treat these diseases.
Many more questions remain about lung diseases, including idiopathic pulmonary fibrosis (IPF). The NHLBI continues to support research aimed at learning more about these diseases. For example, NHLBI-supported research on IPF includes studies that explore:
•The natural history of familial IPF and its underlying causes
•How well N-acetylcysteine works alone and with other medicines to treat IPF
•The benefits of pulmonary rehabilitation for people who have IPF
Much of this research depends on the willingness of volunteers to take part in clinical trials. Clinical trials test new ways to prevent, diagnose, or treat various diseases and conditions.
For example, new treatments for a disease or condition (such as medicines, medical devices, surgeries, or procedures) are tested in volunteers who have the illness. Testing shows whether a treatment is safe and effective in humans before it is made available for widespread use.
By taking part in a clinical trial, you can gain access to new treatments before they’re widely available. You also will have the support of a team of health care providers, who will likely monitor your health closely. Even if you don’t directly benefit from the results of a clinical trial, the information gathered can help others and add to scientific knowledge.
If you volunteer for a clinical trial, the research will be explained to you in detail. You’ll learn about treatments and tests you may receive, and the benefits and risks they may pose. You’ll also be given a chance to ask questions about the research. This process is called informed consent.
If you agree to take part in the trial, you’ll be asked to sign an informed consent form. This form is not a contract. You have the right to withdraw from a study at any time, for any reason. Also, you have the right to learn about new risks or findings that emerge during the trial.
For more information about clinical trials related to IPF, talk with your doctor. You also can visit the following Web sites to learn more about clinical research and to search for clinical trials:
•http://clinicalresearch.nih.gov
•www.clinicaltrials.gov
•www.nhlbi.nih.gov/studies/index.htm
•www.researchmatch.org
Cholesterol
What Is Cholesterol?
To understand high blood cholesterol (ko-LES-ter-ol), it helps to learn about cholesterol. Cholesterol is a waxy, fat-like substance that’s found in all cells of the body.
Your body needs some cholesterol to make hormones, vitamin D, and substances that help you digest foods. Your body makes all the cholesterol it needs. However, cholesterol also is found in some of the foods you eat.
Cholesterol travels through your bloodstream in small packages called lipoproteins (lip-o-PRO-teens). These packages are made of fat (lipid) on the inside and proteins on the outside.
Two kinds of lipoproteins carry cholesterol throughout your body: low-density lipoproteins (LDL) and high-density lipoproteins (HDL). Having healthy levels of both types of lipoproteins is important.
LDL cholesterol sometimes is called “bad” cholesterol. A high LDL level leads to a buildup of cholesterol in your arteries. (Arteries are blood vessels that carry blood from your heart to your body.)
HDL cholesterol sometimes is called “good” cholesterol. This is because it carries cholesterol from other parts of your body back to your liver. Your liver removes the cholesterol from your body.
What Is High Blood Cholesterol?
High blood cholesterol is a condition in which you have too much cholesterol in your blood. By itself, the condition usually has no signs or symptoms. Thus, many people don’t know that their cholesterol levels are too high.
People who have high blood cholesterol have a greater chance of getting coronary heart disease, also called coronary artery disease. (In this article, the term “heart disease” refers to coronary heart disease.)
The higher the level of LDL cholesterol in your blood, the GREATER your chance is of getting heart disease. The higher the level of HDL cholesterol in your blood, the LOWER your chance is of getting heart disease.
Coronary heart disease is a condition in which plaque (plak) builds up inside the coronary (heart) arteries. Plaque is made up of cholesterol, fat, calcium, and other substances found in the blood. When plaque builds up in the arteries, the condition is called atherosclerosis (ATH-er-o-skler-O-sis).
Atherosclerosis
Figure A shows the location of the heart in the body. Figure B shows a normal coronary artery with normal blood flow. The inset image shows a cross-section of a normal coronary artery. Figure C shows a coronary artery narrowed by plaque. The buildup of plaque limits the flow of oxygen-rich blood through the artery. The inset image shows a cross-section of the plaque-narrowed artery.
Over time, plaque hardens and narrows your coronary arteries. This limits the flow of oxygen-rich blood to the heart.
Eventually, an area of plaque can rupture (break open). This causes a blood clot to form on the surface of the plaque. If the clot becomes large enough, it can mostly or completely block blood flow through a coronary artery.
If the flow of oxygen-rich blood to your heart muscle is reduced or blocked, angina (an-JI-nuh or AN-juh-nuh) or a heart attack may occur.
Angina is chest pain or discomfort. It may feel like pressure or squeezing in your chest. The pain also may occur in your shoulders, arms, neck, jaw, or back. Angina pain may even feel like indigestion.
A heart attack occurs if the flow of oxygen-rich blood to a section of heart muscle is cut off. If blood flow isn’t restored quickly, the section of heart muscle begins to die. Without quick treatment, a heart attack can lead to serious problems or death.
Plaque also can build up in other arteries in your body, such as the arteries that bring oxygen-rich blood to your brain and limbs. This can lead to problems such as carotid artery disease, stroke, and peripheral arterial disease (P.A.D.).
Outlook
Lowering your cholesterol may slow, reduce, or even stop the buildup of plaque in your arteries. It also may reduce the risk of plaque rupturing and causing dangerous blood clots.
The image focuses on high cholesterol in women and explains how high cholesterol increases the risk of developing heart disease. An estimated 1 in 2 women has high or borderline high cholesterol.
The image also lists the ranges of total cholesterol numbers for high, borderline high, and desirable cholesterol levels, and breaks down the percentage of women who have high cholesterol in their twenties, thirties, forties, and fifties.
Sources: National Center for Health Statistics (2007–2010). National Health and Nutrition Examination Survey; National Center for Health Statistics (2005–2008). National Health and Nutrition Examination Survey; National Heart, Lung, and Blood Institute, National Cholesterol Education Program (2002). Third report of the National Cholesterol Education Program (NCEP) exert panel on detection, evaluation, and treatment of high blood cholesterol in adults (Adult Treatment Panel III) final report.
Other Names for High Blood Cholesterol
•Hypercholesterolemia (HI-per-ko-LES-ter-ol-E-me-ah)
•Hyperlipidemia (HI-per-lip-ih-DE-me-ah)
Source: National Heart Lung and Blood Institute
What Causes High Blood Cholesterol?
Many factors can affect the cholesterol levels in your blood. You can control some factors, but not others.
Factors You Can Control
Diet
Cholesterol is found in foods that come from animal sources, such as egg yolks, meat, and cheese. Some foods have fats that raise your cholesterol level.
For example, saturated fat raises your low-density lipoprotein (LDL) cholesterol level more than anything else in your diet. Saturated fat is found in some meats, dairy products, chocolate, baked goods, and deep-fried and processed foods.
Trans fatty acids (trans fats) raise your LDL cholesterol and lower your high-density lipoprotein (HDL) cholesterol. Trans fats are made when hydrogen is added to vegetable oil to harden it. Trans fats are found in some fried and processed foods.
Limiting foods with cholesterol, saturated fat, and trans fats can help you control your cholesterol levels.
Physical Activity and Weight
Lack of physical activity can lead to weight gain. Being overweight tends to raise your LDL level, lower your HDL level, and increase your total cholesterol level. (Total cholesterol is a measure of the total amount of cholesterol in your blood, including LDL and HDL.)
Routine physical activity can help you lose weight and lower your LDL cholesterol. Being physically active also can help you raise your HDL cholesterol level.
Factors You Can’t Control
Heredity
High blood cholesterol can run in families. An inherited condition called familial hypercholesterolemia causes very high LDL cholesterol. (“Inherited” means the condition is passed from parents to children through genes.) This condition begins at birth, and it may cause a heart attack at an early age.
Age and Sex
Starting at puberty, men often have lower levels of HDL cholesterol than women. As women and men age, their LDL cholesterol levels often rise. Before age 55, women usually have lower LDL cholesterol levels than men. However, after age 55, women can have higher LDL levels than men.
Source: National Heart Lung and Blood Institute
What Are the Signs and Symptoms of High Blood Cholesterol?
High blood cholesterol usually has no signs or symptoms. Thus, many people don’t know that their cholesterol levels are too high.
If you’re 20 years old or older, have your cholesterol levels checked at least once every 5 years. Talk with your doctor about how often you should be tested.
Source: National Heart Lung and Blood Institute
How Is High Blood Cholesterol Diagnosed?
Your doctor will diagnose high blood cholesterol by checking the cholesterol levels in your blood. A blood test called a lipoprotein panel can measure your cholesterol levels. Before the test, you’ll need to fast (not eat or drink anything but water) for 9 to 12 hours.
The lipoprotein panel will give your doctor information about your:
•Total cholesterol. Total cholesterol is a measure of the total amount of cholesterol in your blood, including low-density lipoprotein (LDL) cholesterol and high-density lipoprotein (HDL) cholesterol.
•LDL cholesterol. LDL, or “bad,” cholesterol is the main source of cholesterol buildup and blockages in the arteries.
•HDL cholesterol. HDL, or “good,” cholesterol helps remove cholesterol from your arteries.
•Triglycerides (tri-GLIH-seh-rides). Triglycerides are a type of fat found in your blood. Some studies suggest that a high level of triglycerides in the blood may raise the risk of coronary heart disease, especially in women.
If it’s not possible to have a lipoprotein panel, knowing your total cholesterol and HDL cholesterol can give you a general idea about your cholesterol levels.
Testing for total and HDL cholesterol does not require fasting. If your total cholesterol is 200 mg/dL or more, or if your HDL cholesterol is less than 40 mg/dL, your doctor will likely recommend that you have a lipoprotein panel. (Cholesterol is measured as milligrams (mg) of cholesterol per deciliter (dL) of blood.)
The tables below show total, LDL, and HDL cholesterol levels and their corresponding categories. See how your cholesterol numbers compare to the numbers in the tables below.
Triglycerides also can raise your risk for heart disease. If your triglyceride level is borderline high (150–199 mg/dL) or high (200 mg/dL or higher), you may need treatment.
Factors that can raise your triglyceride level include:
•Overweight and obesity
•Lack of physical activity
•Cigarette smoking
•Excessive alcohol use
•A very high carbohydrate diet
•Certain diseases and medicines
•Some genetic disorders
Source: National Heart Lung and Blood Institute
How Is High Blood Cholesterol Treated?
High blood cholesterol is treated with lifestyle changes and medicines. The main goal of treatment is to lower your low-density lipoprotein (LDL) cholesterol level enough to reduce your risk for coronary heart disease, heart attack, and other related health problems.
Your risk for heart disease and heart attack goes up as your LDL cholesterol level rises and your number of heart disease risk factors increases.
Some people are at high risk for heart attacks because they already have heart disease. Other people are at high risk for heart disease because they have diabetes or more than one heart disease risk factor.
Talk with your doctor about lowering your cholesterol and your risk for heart disease. Also, check the list to find out whether you have risk factors that affect your LDL cholesterol goal:
•Cigarette smoking
•High blood pressure (140/90 mmHg or higher), or you’re on medicine to treat high blood pressure
•Low high-density lipoprotein (HDL) cholesterol (less than 40 mg/dL)
•Family history of early heart disease (heart disease in father or brother before age 55; heart disease in mother or sister before age 65)
•Age (men 45 years or older; women 55 years or older)
You can use the NHLBI 10-Year Risk Calculator to find your risk score. The score, given as a percentage, refers to your chance of having a heart attack in the next 10 years.
Based on your medical history, number of risk factors, and risk score, figure out your risk of getting heart disease or having a heart attack using the table below.
* Some people in this category are at very high risk because they’ve just had a heart attack or they have diabetes and heart disease, severe risk factors, or metabolic syndrome. If you’re at very high risk, your doctor may set your LDL goal even lower, to less than 70 mg/dL. Your doctor also may set your LDL goal at this lower level if you have heart disease alone.
After following the above steps, you should have an idea about your risk for heart disease and heart attack. The two main ways to lower your cholesterol (and, thus, your heart disease risk) include:
•Therapeutic Lifestyle Changes (TLC). TLC is a three-part program that includes a healthy diet, weight management, and physical activity. TLC is for anyone whose LDL cholesterol level is above goal.
•Medicines. If cholesterol-lowering medicines are needed, they’re used with the TLC program to help lower your LDL cholesterol level.
Your doctor will set your LDL goal. The higher your risk for heart disease, the lower he or she will set your LDL goal. Using the following guide, you and your doctor can create a plan for treating your high blood cholesterol.
Category I, high risk, your LDL goal is less than 100 mg/dL.*
* Your LDL goal may be set even lower, to less than 70 mg/dL, if you’re at very high risk or if you have heart disease. If you have this lower goal and your LDL is 70 mg/dL or higher, you’ll need to begin the TLC diet and take medicines as prescribed.
Category II, moderately high risk, your LDL goal is less than 130 mg/Dl
Category III, moderate risk, your LDL goal is less than 130 mg/dL.
Category IV, low to moderate risk, your LDL goal is less than 160 mg/dL.
Lowering Cholesterol Using Therapeutic Lifestyle Changes
TLC is a set of lifestyle changes that can help you lower your LDL cholesterol. The main parts of the TLC program are a healthy diet, weight management, and physical activity.
The TLC Diet
With the TLC diet, less than 7 percent of your daily calories should come from saturated fat. This kind of fat is found in some meats, dairy products, chocolate, baked goods, and deep-fried and processed foods.
No more than 25 to 35 percent of your daily calories should come from all fats, including saturated, trans, monounsaturated, and polyunsaturated fats.
You also should have less than 200 mg a day of cholesterol. The amounts of cholesterol and the types of fat in prepared foods can be found on the foods’ Nutrition Facts labels.
Foods high in soluble fiber also are part of the TLC diet. They help prevent the digestive tract from absorbing cholesterol. These foods include:
•Whole-grain cereals such as oatmeal and oat bran
•Fruits such as apples, bananas, oranges, pears, and prunes
•Legumes such as kidney beans, lentils, chick peas, black-eyed peas, and lima beans
A diet rich in fruits and vegetables can increase important cholesterol-lowering compounds in your diet. These compounds, called plant stanols or sterols, work like soluble fiber.
A healthy diet also includes some types of fish, such as salmon, tuna (canned or fresh), and mackerel. These fish are a good source of omega-3 fatty acids. These acids may help protect the heart from blood clots and inflammation and reduce the risk of heart attack. Try to have about two fish meals every week.
You also should try to limit the amount of sodium (salt) that you eat. This means choosing low-salt and “no added salt” foods and seasonings at the table or while cooking. The Nutrition Facts label on food packaging shows the amount of sodium in the item.
Try to limit drinks with alcohol. Too much alcohol will raise your blood pressure and triglyceride level. (Triglycerides are a type of fat found in the blood.) Alcohol also adds extra calories, which will cause weight gain.
Men should have no more than two drinks containing alcohol a day. Women should have no more than one drink containing alcohol a day. One drink is a glass of wine, beer, or a small amount of hard liquor.
For more information about TLC, go to the National Heart, Lung, and Blood Institute’s (NHLBI’s) “Your Guide to Lowering Your Cholesterol With TLC.”
Weight Management
If you’re overweight or obese, losing weight can help lower LDL cholesterol. Maintaining a healthy weight is especially important if you have a condition called metabolic syndrome.
Metabolic syndrome is the name for a group of risk factors that raise your risk for heart disease and other health problems, such as diabetes and stroke.
The five metabolic risk factors are a large waistline (abdominal obesity), a high triglyceride level, a low HDL cholesterol level, high blood pressure, and high blood sugar. Metabolic syndrome is diagnosed if you have at least three of these metabolic risk factors.
Physical Activity
Routine physical activity can lower LDL cholesterol and triglycerides and raise your HDL cholesterol level.
People gain health benefits from as little as 60 minutes of moderate-intensity aerobic activity per week. The more active you are, the more you will benefit.
For more information about physical activity, go to the U.S. Department of Health and Human Services’ “2008 Physical Activity Guidelines for Americans,” the Health Topics Physical Activity and Your Heart article, and the NHLBI’s “Your Guide to Physical Activity and Your Heart.”
Cholesterol-Lowering Medicines
In addition to lifestyle changes, your doctor may prescribe medicines to help lower your cholesterol. Even with medicines, you should continue the TLC program.
Medicines can help control high blood cholesterol, but they don’t cure it. Thus, you must continue taking your medicine to keep your cholesterol level in the recommended range.
The five major types of cholesterol-lowering medicines are statins, bile acid sequestrants (seh-KWES-trants), nicotinic (nick-o-TIN-ick) acid, fibrates, and ezetimibe.
•Statins work well at lowering LDL cholesterol. These medicines are safe for most people. Rare side effects include muscle and liver problems.
•Bile acid sequestrants also help lower LDL cholesterol. These medicines usually aren’t prescribed as the only medicine to lower cholesterol. Sometimes they’re prescribed with statins.
•Nicotinic acid lowers LDL cholesterol and triglycerides and raises HDL cholesterol. You should only use this type of medicine with a doctor’s supervision.
•Fibrates lower triglycerides, and they may raise HDL cholesterol. When used with statins, fibrates may increase the risk of muscle problems.
•Ezetimibe lowers LDL cholesterol. This medicine works by blocking the intestine from absorbing cholesterol.
While you’re being treated for high blood cholesterol, you’ll need ongoing care. Your doctor will want to make sure your cholesterol levels are controlled. He or she also will want to check for other health problems.
If needed, your doctor may prescribe medicines for other health problems. Take all medicines exactly as your doctor prescribes. The combination of medicines may lower your risk for heart disease and heart attack.
While trying to manage your cholesterol, take steps to manage other heart disease risk factors too. For example, if you have high blood pressure, work with your doctor to lower it.
If you smoke, quit. Talk with your doctor about programs and products that can help you quit smoking. Also, try to avoid secondhand smoke. If you’re overweight or obese, try to lose weight. Your doctor can help you create a reasonable weight-loss plan.
Source: National Heart Lung and Blood Institute
Clinical Trials
The National Heart, Lung, and Blood Institute (NHLBI) is strongly committed to supporting research aimed at preventing and treating heart, lung, and blood diseases and conditions and sleep disorders.
NHLBI-supported research has led to many advances in medical knowledge and care. Often, these advances depend on the willingness of volunteers to take part in clinical trials.
Clinical trials test new ways to prevent, diagnose, or treat various diseases and conditions. For example, new treatments for a disease or condition (such as medicines, medical devices, surgeries, or procedures) are tested in volunteers who have the illness. Testing shows whether a treatment is safe and effective in humans before it is made available for widespread use.
By taking part in a clinical trial, you can gain access to new treatments before they’re widely available. You also will have the support of a team of health care providers, who will likely monitor your health closely. Even if you don’t directly benefit from the results of a clinical trial, the information gathered can help others and add to scientific knowledge.
If you volunteer for a clinical trial, the research will be explained to you in detail. You’ll learn about treatments and tests you may receive, and the benefits and risks they may pose. You’ll also be given a chance to ask questions about the research. This process is called informed consent.
If you agree to take part in the trial, you’ll be asked to sign an informed consent form. This form is not a contract. You have the right to withdraw from a study at any time, for any reason. Also, you have the right to learn about new risks or findings that emerge during the trial.
For more information about clinical trials related to high blood cholesterol, talk with your doctor. You also can visit the following Web sites to learn more about clinical research and to search for clinical trials:
•http://clinicalresearch.nih.gov
•www.clinicaltrials.gov
•www.nhlbi.nih.gov/studies/index.htm
•www.researchmatch.org
For more information about clinical trials for children, visit the NHLBI’s Children and Clinical Studies Web page.
Pneumonia
What Is Pneumonia?
Pneumonia (nu-MO-ne-ah) is an infection in one or both of the lungs. Many germs—such as bacteria, viruses, and fungi—can cause pneumonia.
The infection inflames your lungs’ air sacs, which are called alveoli (al-VEE-uhl-eye). The air sacs may fill up with fluid or pus, causing symptoms such as a cough with phlegm (a slimy substance), fever, chills, and trouble breathing.
Overview
Pneumonia and its symptoms can vary from mild to severe. Many factors affect how serious pneumonia is, such as the type of germ causing the infection and your age and overall health.
Pneumonia tends to be more serious for:
- Infants and young children.
- Older adults (people 65 years or older).
- People who have other health problems, such as heart failure, diabetes, or COPD (chronic obstructive pulmonary disease).
- People who have weak immune systems as a result of diseases or other factors. Examples of these diseases and factors include HIV/AIDS, chemotherapy (a treatment for cancer), and an organ transplant or blood and marrow stem cell transplant.
Outlook
Pneumonia is common in the United States. Treatment for pneumonia depends on its cause, how severe your symptoms are, and your age and overall health. Many people can be treated at home, often with oral antibiotics.
Children usually start to feel better in 1 to 2 days. For adults, it usually takes 2 to 3 days. Anyone who has worsening symptoms should see a doctor.
People who have severe symptoms or underlying health problems may need treatment in a hospital. It may take 3 weeks or more before they can go back to their normal routines.
Fatigue (tiredness) from pneumonia can last for a month or more.
Source: National Heart Lung and Blood Institute
Types of Pneumonia
Pneumonia is named for the way in which a person gets the infection or for the germ that causes it.
Community-Acquired Pneumonia
Community-acquired pneumonia (CAP) occurs outside of hospitals and other health care settings. Most people get CAP by breathing in germs (especially while sleeping) that live in the mouth, nose, or throat.
CAP is the most common type of pneumonia. Most cases occur during the winter. About 4 million people get this form of pneumonia each year. About 1 out of every 5 people who has CAP needs to be treated in a hospital.
Hospital-Acquired Pneumonia
Some people catch pneumonia during a hospital stay for another illness. This is called hospital-acquired pneumonia (HAP). You’re at higher risk of getting HAP if you’re on a ventilator (a machine that helps you breathe).
HAP tends to be more serious than CAP because you’re already sick. Also, hospitals tend to have more germs that are resistant to antibiotics (medicines used to treat pneumonia).
Health Care-Associated Pneumonia
Patients also may get pneumonia in other health care settings, such as nursing homes, dialysis centers, and outpatient clinics. This type of pneumonia is called health care-associated pneumonia.
Other Common Types of Pneumonia
Aspiration Pneumonia
This type of pneumonia can occur if you inhale food, drink, vomit, or saliva from your mouth into your lungs. This may happen if something disturbs your normal gag reflex, such as a brain injury, swallowing problem, or excessive use of alcohol or drugs.
Aspiration pneumonia can cause pus to form in a cavity in the lung. When this happens, it’s called a lung abscess (AB-ses).
Atypical Pneumonia
Several types of bacteria—Legionella pneumophila, mycoplasma pneumonia, and Chlamydophila pneumoniae—cause atypical pneumonia, a type of CAP. Atypical pneumonia is passed from person to person.
Source: National Heart Lung and Blood Institute
Other Names for Pneumonia
- Pneumonitis (nu-mo-NI-tis).
- Bronchopneumonia (BRONG-ko-nu-MO-ne-ah).
- Nosocomial (nos-o-KO-me-al) pneumonia. This is another name for hospital-acquired pneumonia.
- Walking pneumonia. This refers to pneumonia that’s mild enough that you’re not bedridden.
- Double pneumonia. This refers to pneumonia that affects both lobes of the lungs.
Source: National Heart Lung and Blood Institute
What Causes Pneumonia?
Many germs can cause pneumonia. Examples include different kinds of bacteria, viruses, and, less often, fungi.
Most of the time, the body filters germs out of the air that we breathe to protect the lungs from infection. Your immune system, the shape of your nose and throat, your ability to cough, and fine, hair-like structures called cilia (SIL-e-ah) help stop the germs from reaching your lungs. (For more information, go to the Health Topics How the Lungs Work article.)
Sometimes, though, germs manage to enter the lungs and cause infections. This is more likely to occur if:
- Your immune system is weak
- A germ is very strong
- Your body fails to filter germs out of the air that you breathe
- For example, if you can’t cough because you’ve had a stroke or are sedated, germs may remain in your airways. (“Sedated” means you’re given medicine to make you sleepy.)
When germs reach your lungs, your immune system goes into action. It sends many kinds of cells to attack the germs. These cells cause the alveoli (air sacs) to become red and inflamed and to fill up with fluid and pus. This causes the symptoms of pneumonia.
Germs That Can Cause Pneumonia
Bacteria
Bacteria are the most common cause of pneumonia in adults. Some people, especially the elderly and those who are disabled, may get bacterial pneumonia after having the flu or even a common cold.
Many types of bacteria can cause pneumonia. Bacterial pneumonia can occur on its own or develop after you’ve had a cold or the flu. This type of pneumonia often affects one lobe, or area, of a lung. When this happens, the condition is called lobar pneumonia.
The most common cause of pneumonia in the United States is the bacterium Streptococcus (strep-to-KOK-us) pneumoniae, or pneumococcus (nu-mo-KOK-us).
Lobar Pneumonia
Figure A shows the location of the lungs and airways in the body. This figure also shows pneumonia affecting the lower lobe of the left lung. Figure B shows normal alveoli. Figure C shows infected alveoli.
Another type of bacterial pneumonia is called atypical pneumonia. Atypical pneumonia includes:
Legionella pneumophila. This type of pneumonia sometimes is called Legionnaire’s disease, and it has caused serious outbreaks. Outbreaks have been linked to exposure to cooling towers, whirlpool spas, and decorative fountains.
Mycoplasma pneumonia. This is a common type of pneumonia that usually affects people younger than 40 years old. People who live or work in crowded places like schools, homeless shelters, and prisons are at higher risk for this type of pneumonia. It’s usually mild and responds well to treatment with antibiotics. However, mycoplasma pneumonia can be very serious. It may be associated with a skin rash and hemolysis (the breakdown of red blood cells).
Chlamydophila pneumoniae. This type of pneumonia can occur all year and often is mild. The infection is most common in people 65 to 79 years old.
Viruses
Respiratory viruses cause up to one-third of the pneumonia cases in the United States each year. These viruses are the most common cause of pneumonia in children younger than 5 years old.
Most cases of viral pneumonia are mild. They get better in about 1 to 3 weeks without treatment. Some cases are more serious and may require treatment in a hospital.
If you have viral pneumonia, you run the risk of getting bacterial pneumonia as well.
The flu virus is the most common cause of viral pneumonia in adults. Other viruses that cause pneumonia include respiratory syncytial virus, rhinovirus, herpes simplex virus, severe acute respiratory syndrome (SARS), and more.
Fungi
Three types of fungi in the soil in some parts of the United States can cause pneumonia. These fungi are:
- Coccidioidomycosis (kok-sid-e-OY-do-mi-KO-sis). This fungus is found in Southern California and the desert Southwest.
- Histoplasmosis (HIS-to-plaz-MO-sis). This fungus is found in the Ohio and Mississippi River Valleys.
- Cryptococcus (krip-to-KOK-us). This fungus is found throughout the United States in bird droppings and soil contaminated with bird droppings.
- Most people exposed to these fungi don’t get sick, but some do and require treatment.
Serious fungal infections are most common in people who have weak immune systems due to the long-term use of medicines to suppress their immune systems or having HIV/AIDS.
Pneumocystis jiroveci (nu-mo-SIS-tis ye-RO-VECH-e), formerly Pneumocystis carinii, sometimes is considered a fungal pneumonia. However, it’s not treated with the usual antifungal medicines. This type of infection is most common in people who:
- Have HIV/AIDS or cancer
- Have had an organ transplant and/or blood and marrow stem cell transplant
- Take medicines that affect their immune systems
- Other kinds of fungal infections also can lead to pneumonia.
Source: National Heart Lung and Blood Institute
Who Is at Risk for Pneumonia?
Pneumonia can affect people of all ages. However, two age groups are at greater risk of developing pneumonia:
- Infants who are 2 years old or younger (because their immune systems are still developing during the first few years of life)
- People who are 65 years old or older
- Other conditions and factors also raise your risk for pneumonia. You’re more likely to get pneumonia if you have a lung disease or other serious disease. Examples include cystic fibrosis, asthma, COPD (chronic obstructive pulmonary disease), bronchiectasis, diabetes, heart failure, and sickle cell anemia.
You’re at greater risk for pneumonia if you’re in a hospital intensive-care unit, especially if you’re on a ventilator (a machine that helps you breathe).
Having a weak or suppressed immune system also raises your risk for pneumonia. A weak immune system may be the result of a disease such as HIV/AIDS. A suppressed immune system may be due to an organ transplant or blood and marrow stem cell transplant, chemotherapy (a treatment for cancer), or long-term steroid use.
Your risk for pneumonia also increases if you have trouble coughing because of a stroke or problems swallowing. You’re also at higher risk if you can’t move around much or are sedated (given medicine to make you relaxed or sleepy).
Smoking cigarettes, abusing alcohol, or being undernourished also raises your risk for pneumonia. Your risk also goes up if you’ve recently had a cold or the flu, or if you’re exposed to certain chemicals, pollutants, or toxic fumes.
Source: National Heart Lung and Blood Institute
What Are the Signs and Symptoms of Pneumonia?
The signs and symptoms of pneumonia vary from mild to severe. Many factors affect how serious pneumonia is, including the type of germ causing the infection and your age and overall health. (For more information, go to “Who Is at Risk for Pneumonia?”)
See your doctor promptly if you:
- Have a high fever
- Have shaking chills
- Have a cough with phlegm (a slimy substance), which doesn’t improve or worsens
- Develop shortness of breath with normal daily activities
- Have chest pain when you breathe or cough
- Feel suddenly worse after a cold or the flu
- People who have pneumonia may have other symptoms, including nausea (feeling sick to the stomach), vomiting, and diarrhea.
Symptoms may vary in certain populations. Newborns and infants may not show any signs of the infection. Or, they may vomit, have a fever and cough, or appear restless, sick, or tired and without energy.
Older adults and people who have serious illnesses or weak immune systems may have fewer and milder symptoms. They may even have a lower than normal temperature. If they already have a lung disease, it may get worse. Older adults who have pneumonia sometimes have sudden changes in mental awareness.
Complications of Pneumonia
Often, people who have pneumonia can be successfully treated and not have complications. But some people, especially those in high-risk groups, may have complications such as:
Bacteremia (bak-ter-E-me-ah). This serious complication occurs if the infection moves into your bloodstream. From there, it can quickly spread to other organs, including your brain.
Lung abscesses. An abscess occurs if pus forms in a cavity in the lung. An abscess usually is treated with antibiotics. Sometimes surgery or drainage with a needle is needed to remove the pus.
Pleural effusion. Pneumonia may cause fluid to build up in the pleural space. This is a very thin space between two layers of tissue that line the lungs and the chest cavity. Pneumonia can cause the fluid to become infected—a condition called empyema (em-pi-E-ma). If this happens, you may need to have the fluid drained through a chest tube or removed with surgery.
Source: National Heart Lung and Blood Institute
How Is Pneumonia Diagnosed?
Pneumonia can be hard to diagnose because it may seem like a cold or the flu. You may not realize it’s more serious until it lasts longer than these other conditions.
Your doctor will diagnose pneumonia based on your medical history, a physical exam, and test results.
Medical History
Your doctor will ask about your signs and symptoms and how and when they began. To find out what type of germ is causing the pneumonia, he or she also may ask about:
- Any recent traveling you’ve done
- Your hobbies
- Your exposure to animals
- Your exposure to sick people at home, school, or work
- Your past and current medical conditions, and whether any have gotten worse recently
- Any medicines you take
- Whether you smoke
- Whether you’ve had flu or pneumonia vaccinations
- Physical Exam
Your doctor will listen to your lungs with a stethoscope. If you have pneumonia, your lungs may make crackling, bubbling, and rumbling sounds when you inhale. Your doctor also may hear wheezing.
Your doctor may find it hard to hear sounds of breathing in some areas of your chest.
Diagnostic Tests
If your doctor thinks you have pneumonia, he or she may recommend one or more of the following tests.
Chest X Ray
A chest x ray is a painless test that creates pictures of the structures inside your chest, such as your heart, lungs, and blood vessels.
A chest x ray is the best test for diagnosing pneumonia. However, this test won’t tell your doctor what kind of germ is causing the pneumonia.
Blood Tests
Blood tests involve taking a sample of blood from a vein in your body. A complete blood count (CBC) measures many parts of your blood, including the number of white blood cells in the blood sample. The number of white blood cells can show whether you have a bacterial infection.
Your doctor also may recommend a blood culture to find out whether the infection has spread to your bloodstream. This test is used to detect germs in the bloodstream. A blood culture may show which germ caused the infection. If so, your doctor can decide how to treat the infection.
Other Tests
Your doctor may recommend other tests if you’re in the hospital, have serious symptoms, are older, or have other health problems.
Sputum test. Your doctor may look at a sample of sputum (spit) collected from you after a deep cough. This may help your doctor find out what germ is causing your pneumonia. Then, he or she can plan treatment.
Chest computed tomography (CT) scan. A chest CT scan is a painless test that creates precise pictures of the structures in your chest, such as your lungs. A chest CT scan is a type of x ray, but its pictures show more detail than those of a standard chest x ray.
Pleural fluid culture. For this test, a fluid sample is taken from the pleural space (a thin space between two layers of tissue that line the lungs and chest cavity). Doctors use a procedure called thoracentesis (THOR-ah-sen-TE-sis) to collect the fluid sample. The fluid is studied for germs that may cause pneumonia.
Pulse oximetry. For this test, a small sensor is attached to your finger or ear. The sensor uses light to estimate how much oxygen is in your blood. Pneumonia can keep your lungs from moving enough oxygen into your bloodstream.
If you’re very sick, your doctor may need to measure the level of oxygen in your blood using a blood sample. The sample is taken from an artery, usually in your wrist. This test is called an arterial blood gas test.
Bronchoscopy. Bronchoscopy (bron-KOS-ko-pee) is a procedure used to look inside the lungs’ airways. If you’re in the hospital and treatment with antibiotics isn’t working well, your doctor may use this procedure.
Your doctor passes a thin, flexible tube through your nose or mouth, down your throat, and into the airways. The tube has a light and small camera that allow your doctor to see your windpipe and airways and take pictures.
Your doctor can see whether something is blocking your airways or whether another factor is contributing to your pneumonia.
Source: National Heart Lung and Blood Institute
How Is Pneumonia Treated?
Treatment for pneumonia depends on the type of pneumonia you have and how severe it is. Most people who have community-acquired pneumonia—the most common type of pneumonia—are treated at home.
The goals of treatment are to cure the infection and prevent complications.
General Treatment
If you have pneumonia, follow your treatment plan, take all medicines as prescribed, and get ongoing medical care. Ask your doctor when you should schedule followup care. Your doctor may want you to have a chest x ray to make sure the pneumonia is gone.
Although you may start feeling better after a few days or weeks, fatigue (tiredness) can persist for up to a month or more. People who are treated in the hospital may need at least 3 weeks before they can go back to their normal routines.
Bacterial Pneumonia
Bacterial pneumonia is treated with medicines called antibiotics. You should take antibiotics as your doctor prescribes. You may start to feel better before you finish the medicine, but you should continue taking it as prescribed. If you stop too soon, the pneumonia may come back.
Most people begin to improve after 1 to 3 days of antibiotic treatment. This means that they should feel better and have fewer symptoms, such as cough and fever.
Viral Pneumonia
Antibiotics don’t work when the cause of pneumonia is a virus. If you have viral pneumonia, your doctor may prescribe an antiviral medicine to treat it.
Viral pneumonia usually improves in 1 to 3 weeks.
Treating Severe Symptoms
You may need to be treated in a hospital if:
- Your symptoms are severe
- You’re at risk for complications because of other health problems
- If the level of oxygen in your bloodstream is low, you may receive oxygen therapy. If you have bacterial pneumonia, your doctor may give you antibiotics through an intravenous (IV) line inserted into a vein.
Source: National Heart Lung and Blood Institute
How Can Pneumonia Be Prevented?
Pneumonia can be very serious and even life threatening. When possible, take steps to prevent the infection, especially if you’re in a high-risk group.
Vaccines
Vaccines are available to prevent pneumococcal pneumonia and the flu. Vaccines can’t prevent all cases of infection. However, compared to people who don’t get vaccinated, those who do and still get pneumonia tend to have:
- Milder cases of the infection
- Pneumonia that doesn’t last as long
- Fewer serious complications
- Pneumococcal Pneumonia Vaccine
A vaccine is available to prevent pneumococcal pneumonia. In most adults, one shot is good for at least 5 years of protection. This vaccine often is recommended for:
- People who are 65 years old or older.
- People who have chronic (ongoing) diseases, serious long-term health problems, or weak immune systems. For example, this may include people who have cancer, HIV/AIDS, asthma, or damaged or removed spleens.
- People who smoke.
- Children who are younger than 5 years old.
- Children who are 5–18 years of age with certain medical conditions, such as heart or lung diseases or cancer. For more information, talk with your child’s doctor.
For more information about the pneumococcal pneumonia vaccine, go to the Centers for Disease Control and Prevention’s (CDC’s) Vaccines and Preventable Diseases: Pneumococcal Vaccination Web page.
Influenza Vaccine
The vaccine that helps prevent the flu is good for 1 year. It’s usually given in October or November, before peak flu season.
Because many people get pneumonia after having the flu, this vaccine also helps prevent pneumonia.
For more information about the influenza vaccine, go to the CDC’s Vaccines and Preventable Diseases: Seasonal Influenza (Flu) Vaccination Web page.
Hib Vaccine
Haemophilus influenzae type b (Hib) is a type of bacteria that can cause pneumonia and meningitis (men-in-JI-tis). (Meningitis is an infection of the covering of the brain and spinal cord.) The Hib vaccine is given to children to help prevent these infections.
The vaccine is recommended for all children in the United States who are younger than 5 years old. The vaccine often is given to infants starting at 2 months of age.
For more information about the Hib vaccine, go to the CDC’s Vaccines and Preventable Diseases: Hib Vaccination Web page.
Other Ways To Help Prevent Pneumonia
You also can take the following steps to help prevent pneumonia:
- Wash your hands with soap and water or alcohol-based rubs to kill germs.
- Don’t smoke. Smoking damages your lungs’ ability to filter out and defend against germs. For information about how to quit smoking, go to the Health Topics Smoking and Your Heart article. Although this resource focuses on heart health, it includes general information about how to quit smoking.
- Keep your immune system strong. Get plenty of rest and physical activity and follow a healthy diet.
- If you have pneumonia, limit contact with family and friends. Cover your nose and mouth while coughing or sneezing, and get rid of used tissues right away. These actions help keep the infection from spreading.
Source: National Heart Lung and Blood Institute
Living With Pneumonia
If you have pneumonia, you can take steps to recover from the infection and prevent complications.
Get plenty of rest.
Follow your treatment plan as your doctor advises.
Take all medicines as your doctor prescribes. If you’re using antibiotics, continue to take the medicine until it’s all gone. You may start to feel better before you finish the medicine, but you should continue to take it. If you stop too soon, the pneumonia may come back.
Ask your doctor when you should schedule followup care. Your doctor may recommend a chest x ray to make sure the infection is gone.
It may take time to recover from pneumonia. Some people feel better and are able to return to their normal routines within a week. For other people, it can take a month or more. Most people continue to feel tired for about a month. Talk with your doctor about when you can go back to your normal routine.
Source: National Heart Lung and Blood Institute
Clinical Trials
The National Heart, Lung, and Blood Institute (NHLBI) is strongly committed to supporting research aimed at preventing and treating heart, lung, and blood diseases and conditions and sleep disorders.
NHLBI-supported research has led to many advances in medical knowledge and care. Often, these advances depend on the willingness of volunteers to take part in clinical trials.
Clinical trials test new ways to prevent, diagnose, or treat various diseases and conditions. For example, new treatments for a disease or condition (such as medicines, medical devices, surgeries, or procedures) are tested in volunteers who have the illness. Testing shows whether a treatment is safe and effective in humans before it is made available for widespread use.
By taking part in a clinical trial, you can gain access to new treatments before they’re widely available. You also will have the support of a team of health care providers, who will likely monitor your health closely. Even if you don’t directly benefit from the results of a clinical trial, the information gathered can help others and add to scientific knowledge.
If you volunteer for a clinical trial, the research will be explained to you in detail. You’ll learn about treatments and tests you may receive, and the benefits and risks they may pose. You’ll also be given a chance to ask questions about the research. This process is called informed consent.
If you agree to take part in the trial, you’ll be asked to sign an informed consent form. This form is not a contract. You have the right to withdraw from a study at any time, for any reason. Also, you have the right to learn about new risks or findings that emerge during the trial.
For more information about clinical trials related to pneumonia, talk with your doctor. You also can visit the following Web sites to learn more about clinical research and to search for clinical trials:
- http://clinicalresearch.nih.gov
- www.clinicaltrials.gov
- www.nhlbi.nih.gov/studies/index.htm
- www.researchmatch.org
For more information about clinical trials for children, visit the NHLBI’s Children and Clinical Studies Web page.
Sleep Apnea
What Is Sleep Apnea?
Sleep apnea (AP-ne-ah) is a common disorder in which you have one or more pauses in breathing or shallow breaths while you sleep.
Breathing pauses can last from a few seconds to minutes. They may occur 30 times or more an hour. Typically, normal breathing then starts again, sometimes with a loud snort or choking sound.
Sleep apnea usually is a chronic (ongoing) condition that disrupts your sleep. When your breathing pauses or becomes shallow, you’ll often move out of deep sleep and into light sleep.
As a result, the quality of your sleep is poor, which makes you tired during the day. Sleep apnea is a leading cause of excessive daytime sleepiness.
Overview
Sleep apnea often goes undiagnosed. Doctors usually can’t detect the condition during routine office visits. Also, no blood test can help diagnose the condition.
Most people who have sleep apnea don’t know they have it because it only occurs during sleep. A family member or bed partner might be the first to notice signs of sleep apnea.
The most common type of sleep apnea is obstructive sleep apnea. In this condition, the airway collapses or becomes blocked during sleep. This causes shallow breathing or breathing pauses.
When you try to breathe, any air that squeezes past the blockage can cause loud snoring. Obstructive sleep apnea is more common in people who are overweight, but it can affect anyone. For example, small children who have enlarged tonsil tissues in their throats may have obstructive sleep apnea.
The animation below shows how obstructive sleep apnea occurs. Click the “start” button to play the animation. Written and spoken explanations are provided with each frame. Use the buttons in the lower right corner to pause, restart, or replay the animation, or use the scroll bar below the buttons to move through the frames.
Source: National Heart Lung and Blood Institute
Other Names for Sleep Apnea
- Central sleep apnea
- Obstructive sleep apnea
- Sleep-disordered breathing
What Causes Sleep Apnea?
When you’re awake, throat muscles help keep your airway stiff and open so air can flow into your lungs. When you sleep, these muscles relax, which narrows your throat.
Normally, this narrowing doesn’t prevent air from flowing into and out of your lungs. But if you have sleep apnea, your airway can become partially or fully blocked because:
- Your throat muscles and tongue relax more than normal.
- Your tongue and tonsils (tissue masses in the back of your mouth) are large compared with the opening into your windpipe.
- You’re overweight. The extra soft fat tissue can thicken the wall of the windpipe. This narrows the inside of the windpipe, which makes it harder to keep open.
- The shape of your head and neck (bony structure) may cause a smaller airway size in the mouth and throat area.
- The aging process limits your brain signals’ ability to keep your throat muscles stiff during sleep. Thus, your airway is more likely to narrow or collapse.
- Not enough air flows into your lungs if your airway is partially or fully blocked during sleep. As a result, loud snoring and a drop in your blood oxygen level can occur.
If the oxygen drops to a dangerous level, it triggers your brain to disturb your sleep. This helps tighten the upper airway muscles and open your windpipe. Normal breathing then starts again, often with a loud snort or choking sound.
Frequent drops in your blood oxygen level and reduced sleep quality can trigger the release of stress hormones. These hormones raise your heart rate and increase your risk for high blood pressure, heart attack, stroke, and arrhythmias (irregular heartbeats). The hormones also can raise your risk for, or worsen, heart failure.
Untreated sleep apnea also can lead to changes in how your body uses energy. These changes increase your risk for obesity and diabetes.
Source: National Heart Lung and Blood Institute
Who Is at Risk for Sleep Apnea?
Obstructive sleep apnea is a common condition. About half of the people who have this condition are overweight.
Men are more likely than women to have sleep apnea. Although the condition can occur at any age, the risk increases as you get older. A family history of sleep apnea also increases your risk for the condition.
People who have small airways in their noses, throats, or mouths are more likely to have sleep apnea. Small airways might be due to the shape of these structures or allergies or other conditions that cause congestion.
Small children might have enlarged tonsil tissues in their throats. Enlarged tonsil tissues raise a child’s risk for sleep apnea. Overweight children also might be at increased risk for sleep apnea.
About half of the people who have sleep apnea also have high blood pressure. Sleep apnea also is linked to smoking, metabolic syndrome, diabetes, and risk factors for stroke and heart failure.
Race and ethnicity might play a role in the risk of developing sleep apnea. However, more research is needed.
Source: National Heart Lung and Blood Institute
What Are the Signs and Symptoms of Sleep Apnea?
Major Signs and Symptoms
One of the most common signs of obstructive sleep apnea is loud and chronic (ongoing) snoring. Pauses may occur in the snoring. Choking or gasping may follow the pauses.
The snoring usually is loudest when you sleep on your back; it might be less noisy when you turn on your side. You might not snore every night. Over time, however, the snoring can happen more often and get louder.
You’re asleep when the snoring or gasping happens. You likely won’t know that you’re having problems breathing or be able to judge how severe the problem is. A family member or bed partner often will notice these problems before you do.
Not everyone who snores has sleep apnea.
Another common sign of sleep apnea is fighting sleepiness during the day, at work, or while driving. You may find yourself rapidly falling asleep during the quiet moments of the day when you’re not active. Even if you don’t have daytime sleepiness, talk with your doctor if you have problems breathing during sleep.
Other Signs and Symptoms
Others signs and symptoms of sleep apnea include:
- Morning headaches
- Memory or learning problems and not being able to concentrate
- Feeling irritable, depressed, or having mood swings or personality changes
- Waking up frequently to urinate
- Dry mouth or sore throat when you wake up
- In children, sleep apnea can cause hyperactivity, poor school performance, and angry or hostile behavior. Children who have sleep apnea also may breathe through their mouths instead of their noses during the day.
Source: National Heart Lung and Blood Institute
How Is Sleep Apnea Diagnosed?
Doctors diagnose sleep apnea based on medical and family histories, a physical exam, and sleep study results. Your primary care doctor may evaluate your symptoms first. He or she will then decide whether you need to see a sleep specialist.
Sleep specialists are doctors who diagnose and treat people who have sleep problems. Examples of such doctors include lung and nerve specialists and ear, nose, and throat specialists. Other types of doctors also can be sleep specialists.
Medical and Family Histories
If you think you have a sleep problem, consider keeping a sleep diary for 1 to 2 weeks. Bring the diary with you to your next medical appointment.
Write down when you go to sleep, wake up, and take naps. Also write down how much you sleep each night, how alert and rested you feel in the morning, and how sleepy you feel at various times during the day. This information can help your doctor figure out whether you have a sleep disorder.
You can find a sample sleep diary in the National Heart, Lung, and Blood Institute’s “Your Guide to Healthy Sleep.”
At your appointment, your doctor will ask you questions about how you sleep and how you function during the day.
Your doctor also will want to know how loudly and often you snore or make gasping or choking sounds during sleep. Often you’re not aware of such symptoms and must ask a family member or bed partner to report them.
Let your doctor know if anyone in your family has been diagnosed with sleep apnea or has had symptoms of the disorder.
Many people aren’t aware of their symptoms and aren’t diagnosed.
If you’re a parent of a child who may have sleep apnea, tell your child’s doctor about your child’s signs and symptoms.
Physical Exam
Your doctor will check your mouth, nose, and throat for extra or large tissues. Children who have sleep apnea might have enlarged tonsils. Doctors may need only a physical exam and medical history to diagnose sleep apnea in children.
Adults who have sleep apnea may have an enlarged uvula (U-vu-luh) or soft palate. The uvula is the tissue that hangs from the middle of the back of your mouth. The soft palate is the roof of your mouth in the back of your throat.
Sleep Studies
Sleep studies are tests that measure how well you sleep and how your body responds to sleep problems. These tests can help your doctor find out whether you have a sleep disorder and how severe it is. Sleep studies are the most accurate tests for diagnosing sleep apnea.
There are different kinds of sleep studies. If your doctor thinks you have sleep apnea, he or she may recommend a polysomnogram (poly-SOM-no-gram; also called a PSG) or a home-based portable monitor.
Polysomnogram
A PSG is the most common sleep study for diagnosing sleep apnea. This study records brain activity, eye movements, heart rate, and blood pressure.
A PSG also records the amount of oxygen in your blood, air movement through your nose while you breathe, snoring, and chest movements. The chest movements show whether you’re making an effort to breathe.
PSGs often are done at sleep centers or sleep labs. The test is painless. You’ll go to sleep as usual, except you’ll have sensors attached to your scalp, face, chest, limbs, and a finger. The staff at the sleep center will use the sensors to check on you throughout the night.
A sleep specialist will review the results of your PSG to see whether you have sleep apnea and how severe it is. He or she will use the results to plan your treatment.
Your doctor also may use a PSG to find the best setting for you on a CPAP (continuous positive airway pressure) machine. CPAP is the most common treatment for sleep apnea. A CPAP machine uses mild air pressure to keep your airway open while you sleep.
If your doctor thinks that you have sleep apnea, he or she may schedule a split-night sleep study. During the first half of the night, your sleep will be checked without a CPAP machine. This will show whether you have sleep apnea and how severe it is.
If the PSG shows that you have sleep apnea, you’ll use a CPAP machine during the second half of the split-night study. The staff at the sleep center will adjust the flow of air from the CPAP machine to find the setting that works best for you.
Home-Based Portable Monitor
Your doctor may recommend a home-based sleep test with a portable monitor. The portable monitor will record some of the same information as a PSG. For example, it may record:
- The amount of oxygen in your blood
- Air movement through your nose while you breathe
- Your heart rate
- Chest movements that show whether you’re making an effort to breathe
- A sleep specialist may use the results from a home-based sleep test to help diagnose sleep apnea. He or she also may use the results to decide whether you need a full PSG study in a sleep center.
Source: National Heart Lung and Blood Institute
How Is Sleep Apnea Treated?
Sleep apnea is treated with lifestyle changes, mouthpieces, breathing devices, and surgery. Medicines typically aren’t used to treat the condition.
The goals of treating sleep apnea are to:
- Restore regular breathing during sleep
- Relieve symptoms such as loud snoring and daytime sleepiness
- Treatment may improve other medical problems linked to sleep apnea, such as high blood pressure. Treatment also can reduce your risk for heart disease, stroke, and diabetes.
- If you have sleep apnea, talk with your doctor or sleep specialist about the treatment options that will work best for you.
- Lifestyle changes and/or mouthpieces may relieve mild sleep apnea. People who have moderate or severe sleep apnea may need breathing devices or surgery.
- If you continue to have daytime sleepiness despite treatment, your doctor may ask whether you’re getting enough sleep. (Adults should get at least 7 to 8 hours of sleep; children and teens need more. For more information, go to the Health Topics Sleep Deprivation and Deficiency article.)
- If treatment and enough sleep don’t relieve your daytime sleepiness, your doctor will consider other treatment options.
Lifestyle Changes
If you have mild sleep apnea, some changes in daily activities or habits might be all the treatment you need.
Avoid alcohol and medicines that make you sleepy. They make it harder for your throat to stay open while you sleep.
Lose weight if you’re overweight or obese. Even a little weight loss can improve your symptoms.
Sleep on your side instead of your back to help keep your throat open. You can sleep with special pillows or shirts that prevent you from sleeping on your back.
Keep your nasal passages open at night with nasal sprays or allergy medicines, if needed. Talk with your doctor about whether these treatments might help you.
If you smoke, quit. Talk with your doctor about programs and products that can help you quit smoking.
Mouthpieces
A mouthpiece, sometimes called an oral appliance, may help some people who have mild sleep apnea. Your doctor also may recommend a mouthpiece if you snore loudly but don’t have sleep apnea.
A dentist or orthodontist can make a custom-fit plastic mouthpiece for treating sleep apnea. (An orthodontist specializes in correcting teeth or jaw problems.) The mouthpiece will adjust your lower jaw and your tongue to help keep your airways open while you sleep.
If you use a mouthpiece, tell your doctor if you have discomfort or pain while using the device. You may need periodic office visits so your doctor can adjust your mouthpiece to fit better.
Breathing Devices
CPAP (continuous positive airway pressure) is the most common treatment for moderate to severe sleep apnea in adults. A CPAP machine uses a mask that fits over your mouth and nose, or just over your nose.
The machine gently blows air into your throat. The pressure from the air helps keep your airway open while you sleep.
Treating sleep apnea may help you stop snoring. But not snoring doesn’t mean that you no longer have sleep apnea or can stop using CPAP. Your sleep apnea will return if you stop using your CPAP machine or don’t use it correctly.
Usually, a technician will come to your home to bring the CPAP equipment. The technician will set up the CPAP machine and adjust it based on your doctor’s prescription. After the initial setup, you may need to have the CPAP adjusted from time to time for the best results.
CPAP treatment may cause side effects in some people. These side effects include a dry or stuffy nose, irritated skin on your face, dry mouth, and headaches. If your CPAP isn’t adjusted properly, you may get stomach bloating and discomfort while wearing the mask.
If you’re having trouble with CPAP side effects, work with your sleep specialist, his or her nursing staff, and the CPAP technician. Together, you can take steps to reduce the side effects.
For example, the CPAP settings or size/fit of the mask might need to be adjusted. Adding moisture to the air as it flows through the mask or using nasal spray can help relieve a dry, stuffy, or runny nose.
There are many types of CPAP machines and masks. Tell your doctor if you’re not happy with the type you’re using. He or she may suggest switching to a different type that might work better for you.
People who have severe sleep apnea symptoms generally feel much better once they begin treatment with CPAP.
Surgery
Some people who have sleep apnea might benefit from surgery. The type of surgery and how well it works depend on the cause of the sleep apnea.
Surgery is done to widen breathing passages. It usually involves shrinking, stiffening, or removing excess tissue in the mouth and throat or resetting the lower jaw.
Surgery to shrink or stiffen excess tissue is done in a doctor’s office or a hospital. Shrinking tissue may involve small shots or other treatments to the tissue. You may need a series of treatments to shrink the excess tissue. To stiffen excess tissue, the doctor makes a small cut in the tissue and inserts a piece of stiff plastic.
Surgery to remove excess tissue is done in a hospital. You’re given medicine to help you sleep during the surgery. After surgery, you may have throat pain that lasts for 1 to 2 weeks.
Surgery to remove the tonsils, if they’re blocking the airway, might be helpful for some children. Your child’s doctor may suggest waiting some time to see whether these tissues shrink on their own. This is common as small children grow.
Source: National Heart Lung and Blood Institute
Living With Sleep Apnea
Sleep apnea can be very serious. However, following an effective treatment plan often can improve your quality of life quite a bit.
Treatment can improve your sleep and relieve daytime sleepiness. Treatment also might lower your risk for high blood pressure, heart disease, and other health problems linked to sleep apnea.
Treatment may improve your overall health and happiness as well as your quality of sleep (and possibly your family’s quality of sleep).
Ongoing Health Care Needs
Follow up with your doctor regularly to make sure your treatment is working. Tell him or her if the treatment is causing bothersome side effects.
Ongoing care is important if you’re getting CPAP (continuous positive airway pressure) treatment. It may take a while before you adjust to using CPAP.
If you aren’t comfortable with your CPAP device, or if it doesn’t seem to be working, let your doctor know. You may need to switch to a different device or mask. Or, you may need treatment to relieve CPAP side effects.
Try not to gain weight. Weight gain can worsen sleep apnea and require adjustments to your CPAP device. In contrast, weight loss may relieve your sleep apnea.
Until your sleep apnea is properly treated, know the dangers of driving or operating heavy machinery while sleepy.
If you’re having any type of surgery that requires medicine to put you to sleep, let your surgeon and doctors know you have sleep apnea. They might have to take extra steps to make sure your airway stays open during the surgery.
If you’re using a mouthpiece to treat your sleep apnea, you may need to have routine checkups with your dentist.
How Can Family Members Help?
Often, people who have sleep apnea don’t know they have it. They’re not aware that their breathing stops and starts many times while they’re sleeping. Family members or bed partners usually are the first to notice signs of sleep apnea.
Family members can do many things to help a loved one who has sleep apnea.
Let the person know if he or she snores loudly during sleep or has breathing stops and starts.
Encourage the person to get medical help.
Help the person follow the doctor’s treatment plan, including CPAP treatment.
Provide emotional support.
Source: National Heart Lung and Blood Institute
Clinical Trials
The National Heart, Lung, and Blood Institute (NHLBI) is strongly committed to supporting research aimed at preventing and treating heart, lung, and blood diseases and conditions and sleep disorders.
NHLBI-supported research has led to many advances in medical knowledge and care. For example, this research has uncovered some of the causes of various sleep disorders and ways to diagnose and treat them.
The NHLBI continues to support research to learn more about sleep and sleep disorders. For example, the NHLBI’s Sleep Heart Health Study showed that moderate to severe sleep apnea is associated with an increased risk of stroke and death in middle-aged adults, especially men. Current NHLBI studies are exploring:
- How obesity and sleep apnea affect inflammation and heart disease
- Whether CPAP treatment affects how the body uses glucose (sugar)
- New behavioral programs and methods to help patients adhere to CPAP treatment
In November 2011, the National Institutes of Health (NIH) released its “2011 NIH Sleep Disorders Research Plan.” The plan expands upon previous and current research programs and identifies new research opportunities.
The NHLBI’s National Center on Sleep Disorders Research coordinates this research across the NIH and other Federal agencies. The research focuses on sleep and the body’s natural 24-hour cycle, the role of genes and the environment on sleep health, and ways to improve the prevention, diagnosis, and treatment of sleep disorders.
Much of this research depends on the willingness of volunteers to take part in clinical trials. Clinical trials test new ways to prevent, diagnose, or treat various diseases, conditions, and health problems.
For example, new treatments for a disease or condition (such as medicines, medical devices, surgeries, or procedures) are tested in volunteers who have the illness. Testing shows whether a treatment is safe and effective in humans before it is made available for widespread use.
By taking part in a clinical trial, you may gain access to new treatments before they’re widely available. You also will have the support of a team of health care providers, who will likely monitor your health closely. Even if you don’t directly benefit from the results of a clinical trial, the information gathered can help others and add to scientific knowledge.
If you volunteer for a clinical trial, the research will be explained to you in detail. You’ll learn about treatments and tests you may receive, and the benefits and risks they may pose. You’ll also be given a chance to ask questions about the research. This process is called informed consent.
If you agree to take part in the trial, you’ll be asked to sign an informed consent form. This form is not a contract. You have the right to withdraw from a study at any time, for any reason. Also, you have the right to learn about new risks or findings that emerge during the trial.
For more information about clinical trials for children, visit the NHLBI’s Children and Clinical Studies Web page.
Lung Cancer
What is lung cancer?
Cancer of the lung, like all cancers, results from an abnormality in the body’s basic unit of life, the cell. Normally, the body maintains a system of checks and balances on cell growth so that cells divide to produce new cells only when new cells are needed. Disruption of this system of checks and balances on cell growth results in an uncontrolled division and proliferation of cells that eventually forms a mass known as a tumor.
Tumors can be benign or malignant; when we speak of “cancer,” we are referring to those tumors that are malignant. Benign tumors usually can be removed and do not spread to other parts of the body. Malignant tumors, on the other hand, grow aggressively and invade other tissues of the body, allowing entry of tumor cells into the bloodstream or lymphatic system and then to other sites in the body. This process of spread is term edmetastasis; the areas of tumor growth at these distant sites are called metastases. Since lung cancer tends to spread or metastasize very early after it forms, it is a very life-threatening cancer and one of the most difficult cancers to treat. While lung cancer can spread to any organ in the body, certain organs — particularly the adrenal glands, liver, brain, and bone — are the most common sites for lung cancer metastasis.
The lung also is a very common site for metastasis from tumors in other parts of the body. Tumor metastases are made up of the same type of cells as the original (primary) tumor. For example, ifprostate cancer spreads via the bloodstream to the lungs, it is metastatic prostate cancer in the lung and is not lung cancer.
The principal function of the lungs is to exchange gases between the air we breathe and the blood. Through the lung, carbon dioxide is removed from the bloodstream and oxygen from inspired air enters the bloodstream. The right lung has three lobes, while the left lung is divided into two lobes and a small structure called the lingula that is the equivalent of the middle lobe on the right. The major airways entering the lungs are the bronchi, which arise from the trachea. The bronchi branch into progressively smaller airways called bronchioles that end in tiny sacs known as alveoli where gas exchange occurs. The lungs and chest wall are covered with a thin layer of tissue called the pleura.
Lung cancers can arise in any part of the lung, but 90%-95% of cancers of the lung are thought to arise from the epithelial cells, the cells lining the larger and smaller airways (bronchi and bronchioles); for this reason, lung cancers are sometimes called bronchogenic cancers or bronchogenic carcinomas. (Carcinoma is another term for cancer.) Cancers also can arise from the pleura (called mesotheliomas) or rarely from supporting tissues within the lungs, for example, the blood vessels.
Reviewed by Jay W. Marks, MD on 1/31/2011
©2012, WebMD, LLC. All rights reserved, Source: WebMD
How common is lung cancer?
Lung cancer is the most common cause of death due to cancer in both men and women throughout the world. The American Cancer Society estimated that 222,520 new cases of lung cancer in the U.S. will be diagnosed and 157,300 deaths due to lung cancer would occur in 2010. According to the U.S. National Cancer Institute, approximately one out of every 14 men and women in the U.S. will be diagnosed with cancer of the lung at some point in their lifetime.
Lung cancer is predominantly a disease of the elderly; almost 70% of people diagnosed with lung cancer are over 65 years of age, while less than 3% of lung cancers occur in people under 45 years of age.
Lung cancer was not common prior to the 1930s but increased dramatically over the following decades as tobacco smoking increased. In many developing countries, the incidence of lung cancer is beginning to fall following public education about the dangers of cigarette smoking and the introduction of effective smoking-cessation programs. Nevertheless, lung cancer remains among the most common types of cancers in both men and women worldwide. In the U.S., lung cancer has surpassed breast cancer as the most common cause of cancer-related deaths in women.
What causes lung cancer?
Smoking
The incidence of lung cancer is strongly correlated with cigarette smoking, with about 90% of lung cancers arising as a result of tobacco use. The risk of lung cancer increases with the number of cigarettes smoked and the time over which smoking has occurred; doctors refer to this risk in terms of pack-years of smoking history (the number of packs of cigarettes smoked per day multiplied by the number of years smoked). For example, a person who has smoked two packs of cigarettes per day for 10 years has a 20 pack-year smoking history. While the risk of lung cancer is increased with even a 10-pack-year smoking history, those with 30-pack-year histories or more are considered to have the greatest risk for the development of lung cancer. Among those who smoke two or more packs of cigarettes per day, one in seven will die of lung cancer.
Pipe and cigar smoking also can cause lung cancer, although the risk is not as high as with cigarette smoking. Thus, while someone who smokes one pack of cigarettes per day has a risk for the development of lung cancer that is 25 times higher than a nonsmoker, pipe and cigar smokers have a risk of lung cancer that is about five times that of a nonsmoker.
Tobacco smoke contains over 4,000 chemical compounds, many of which have been shown to be cancer-causing or carcinogenic. The two primary carcinogens in tobacco smoke are chemicals known as nitrosamines and polycyclic aromatic hydrocarbons. The risk of developing lung cancer decreases each year following smoking cessation as normal cells grow and replace damaged cells in the lung. In former smokers, the risk of developing lung cancer begins to approach that of a nonsmoker about 15 years after cessation of smoking.
Passive smoking
Passive smoking or the inhalation of tobacco smoke by nonsmokers, who share living or working quarters with smokers, also is an established risk factor for the development of lung cancer. Research has shown that nonsmokers who reside with a smoker have a 24% increase in risk for developing lung cancer when compared with nonsmokers who do not reside with a smoker. An estimated 3,000 lung cancer deaths that occur each year in the U.S. are attributable to passive smoking.
Asbestos fibers
Asbestos fibers are silicate fibers that can persist for a lifetime in lung tissue following exposure to asbestos. The workplace is a common source of exposure to asbestos fibers, as asbestos was widely used in the past as both thermal and acoustic insulation. Today, asbestos use is limited or banned in many countries, including the U.S. Both lung cancer and mesothelioma (cancer of the pleura of the lung as well as of the lining of the abdominal cavity called the peritoneum) are associated with exposure to asbestos. Cigarette smoking drastically increases the chance of developing an asbestos-related lung cancer in workers exposed to asbestos. Asbestos workers who do not smoke have a fivefold greater risk of developing lung cancer than nonsmokers, but asbestos workers who smoke have a risk that is fifty- to ninetyfold greater than nonsmokers.
Radon gas
Radon gas is a natural, chemically inert gas that is a natural decay product of uranium. Uranium decays to form products, including radon, that emit a type of ionizing radiation. Radon gas is a known cause of lung cancer, with an estimated 12% of lung-cancer deaths attributable to radon gas, or about 20,000 lung-cancer-related deaths annually in the U.S., making radon the second leading cause of lung cancer in the U.S. As with asbestos exposure, concomitant smoking greatly increases the risk of lung cancer with radon exposure. Radon gas can travel up through soil and enter homes through gaps in the foundation, pipes, drains, or other openings. The U.S. Environmental Protection Agency estimates that one out of every 15 homes in the U.S. contains dangerous levels of radon gas. Radon gas is invisible and odorless, but it can be detected with simple test kits.
Familial predisposition
While the majority of lung cancers are associated with tobacco smoking, the fact that not all smokers eventually develop lung cancer suggests that other factors, such as individual genetic susceptibility, may play a role in the causation of lung cancer. Numerous studies have shown that lung cancer is more likely to occur in both smoking and nonsmoking relatives of those who have had lung cancer than in the general population. Recently, the largest genetic study of lung cancer ever conducted, involving over 10,000 people from 18 countries and led by the International Agency for Research on Cancer (IARC), identified a small region in the genome (DNA) that contains genes that appear to confer an increased susceptibility to lung cancer in smokers. The specific genes, located the q arm of chromosome 15, code for proteins that interact with nicotine and other tobacco toxins (nicotinic acetylcholine receptor genes).
Lung diseases
The presence of certain diseases of the lung, notably chronic obstructive pulmonary disease (COPD), is associated with an increased risk (four- to six fold the risk of a nonsmoker) for the development of lung cancer even after the effects of concomitant cigarette smoking are excluded.
Prior history of lung cancer
Survivors of lung cancer have a greater risk of developing a second lung cancer than the general population has of developing a first lung cancer. Survivors of non-small cell lung cancers (NSCLCs, see below) have an additive risk of 1%-2% per year for developing a second lung cancer. In survivors of small cell lung cancers (SCLCs, see below), the risk for development of second lung cancers approaches 6% per year.
Air pollution
Air pollution from vehicles, industry, and power plants can raise the likelihood of developing lung cancer in exposed individuals. Up to 1% of lung cancer deaths are attributable to breathing polluted air, and experts believe that prolonged exposure to highly polluted air can carry a risk for the development of lung cancer similar to that of passive smoking.
Reviewed by Jay W. Marks, MD on 1/31/2011
©2012, WebMD, LLC. All rights reserved, Source: WebMD
What are the types of lung cancer?
Lung cancers, also known as bronchogenic carcinomas, are broadly classified into two types: small cell lung cancers (SCLC) and non-small cell lung cancers (NSCLC). This classification is based upon the microscopic appearance of the tumor cells themselves. These two types of cancers grow and spread in different ways and may have different treatment options, so a distinction between these two types is important.
SCLC comprise about 20% of lung cancers and are the most aggressive and rapidly growing of all lung cancers. SCLC are strongly related to cigarette smoking, with only 1% of these tumors occurring in nonsmokers. SCLC metastasize rapidly to many sites within the body and are most often discovered after they have spread extensively. Referring to a specific cell appearance often seen when examining samples of SCLC under the microscope, these cancers are sometimes called oat cell carcinomas.
NSCLC are the most common lung cancers, accounting for about 80% of all lung cancers. NSCLC can be divided into three main types that are named based upon the type of cells found in the tumor:
• Adenocarcinomas are the most commonly seen type of NSCLC in the U.S. and comprise up to 50% of NSCLC. While adenocarcinomas are associated with smoking, like other lung cancers, this type is observed as well in nonsmokers who develop lung cancer. Most adenocarcinomas arise in the outer, or peripheral, areas of the lungs.
• Bronchioloalveolar carcinoma is a subtype of adenocarcinoma that frequently develops at multiple sites in the lungs and spreads along the preexisting alveolar walls.
• Squamous cell carcinomas were formerly more common than adenocarcinomas; at present, they account for about 30% of NSCLC. Also known as epidermoid carcinomas, squamous cell cancers arise most frequently in the central chest area in the bronchi.
• Large cell carcinomas, sometimes referred to as undifferentiated carcinomas, are the least common type of NSCLC.
• Mixtures of different types of NSCLC are also seen.
Other types of cancers can arise in the lung; these types are much less common than NSCLC and SCLC and together comprise only 5%-10% of lung cancers:
• Bronchial carcinoids account for up to 5% of lung cancers. These tumors are generally small (3 cm-4 cm or less) when diagnosed and occur most commonly in people under 40 years of age. Unrelated to cigarette smoking, carcinoid tumors can metastasize, and a small proportion of these tumors secrete hormone-like substances that may cause specific symptoms related to the hormone being produced. Carcinoids generally grow and spread more slowly than bronchogenic cancers, and many are detected early enough to be amenable to surgical resection.
• Cancers of supporting lung tissue such as smooth muscle, blood vessels, or cells involved in the immune response can rarely occur in the lung.
As discussed previously, metastatic cancers from other primary tumors in the body are often found in the lung. Tumors from anywhere in the body may spread to the lungs either through the bloodstream, through the lymphatic system, or directly from nearby organs. Metastatic tumors are most often multiple, scattered throughout the lung, and concentrated in the peripheral rather than central areas of the lung.
Reviewed by Jay W. Marks, MD on 1/31/2011
©2012, WebMD, LLC. All rights reserved, Source: WebMD
What are lung cancer symptoms and signs?
Symptoms of lung cancer are varied depending upon where and how widespread the tumor is. Warning signs of lung cancer are not always present or easy to identify. A person with lung cancer may have the following kinds of symptoms:
• No symptoms: In up to 25% of people who get lung cancer, the cancer is first discovered on a routine chest X-ray or CT scan as a solitary small mass sometimes called a coin lesion, since on a two-dimensional X-ray or CT scan, the round tumor looks like a coin. These patients with small, single masses often report no symptoms at the time the cancer is discovered.
• Symptoms related to the cancer: The growth of the cancer and invasion of lung tissues and surrounding tissue may interfere with breathing, leading to symptoms such as cough, shortness of breath, wheezing, chest pain, and coughing up blood (hemoptysis). If the cancer has invaded nerves, for example, it may cause shoulder pain that travels down the outside of the arm (called Pan coast’s syndrome) or paralysis of the vocal cords leading to hoarseness. Invasion of the esophagus may lead to difficulty swallowing (dysphagia). If a large airway is obstructed, collapse of a portion of the lung may occur and cause infections (abscesses, pneumonia) in the obstructed area.
• Symptoms related to metastasis: Lung cancer that has spread to the bones may produce excruciating pain at the sites of bone involvement. Cancer that has spread to the brain may cause a number of neurologic symptoms that may include blurred vision, headaches, seizures, or symptoms of stroke such as weakness or loss of sensation in parts of the body.
• Paraneoplastic symptoms: Lung cancers frequently are accompanied by symptoms that result from production of hormone-like substances by the tumor cells. These paraneoplastic syndromes occur most commonly with SCLC but may be seen with any tumor type. A common paraneoplastic syndrome associated with SCLC is the production of a hormone called adrenocorticotrophic hormone (ACTH) by the cancer cells, leading to over secretion of the hormone cortisol by the adrenal glands (Cushing’s syndrome). The most frequent paraneoplastic syndrome seen with NSCLC is the production of a substance similar to parathyroid hormone, resulting in elevated levels of calcium in the bloodstream.
• Nonspecific symptoms: Nonspecific symptoms seen with many cancers, including lung cancers, include weight loss, weakness, and fatigue. Psychological symptoms such as depression and mood changes are also common.
When should one consult a doctor?
One should consult a health-care provider if he or she develops the symptoms associated with lung cancer, in particular, if they have
• a new persistent cough or worsening of an existing chronic cough
• blood in the sputum,
• persistent bronchitis or repeated respiratory infections
• chest pain
• unexplained weight loss and/or fatigue
• breathing difficulties such as shortness of breath or wheezing.
Reviewed by Jay W. Marks, MD on 1/31/2011
©2012, WebMD, LLC. All rights reserved, Source: WebMD
How is lung cancer diagnosed?
Doctors use a wide range of diagnostic procedures and tests to diagnose lung cancer. These include the following:
• The history and physical examination may reveal the presence of symptoms or signs that are suspicious for lung cancer. In addition to asking about symptoms and risk factors for cancer development such as smoking, doctors may detect signs of breathing difficulties, airway obstruction, or infections in the lungs. Cyanosis, a bluish color of the skin and the mucous membranes due to insufficient oxygen in the blood, suggests compromised function due to chronic disease of the lung. Likewise, changes in the tissue of the nail beds, known as clubbing, also may indicate chronic lung disease.
• The chest X-ray is the most common first diagnostic step when any new symptoms of lung cancer are present. The chest X-ray procedure often involves a view from the back to the front of the chest as well as a view from the side. Like any X-ray procedure, chest X-rays expose the patient briefly to a small amount of radiation. Chest X-rays may reveal suspicious areas in the lungs but are unable to determine if these areas are cancerous. In particular, calcified nodules in the lungs or benign tumors called hamartomas may be identified on a chest X-ray and mimic lung cancer.
• CT (computerized tomography, computerized axial tomography, or CAT) scans may be performed on the chest, abdomen, and/or brain to examine for both metastatic and lung tumors. A CT scan of the chest may be ordered when X-rays do not show an abnormality or do not yield sufficient information about the extent or location of a tumor. CT scans are X-ray procedures that combine multiple images with the aid of a computer to generate cross-sectional views of the body. The images are taken by a large donut-shaped X-ray machine at different angles around the body. One advantage of CT scans is that they are more sensitive than standard chest X-rays in the detection of lung nodules, that is, they will demonstrate more nodules. Sometimes intravenous contrast material is given prior to the scan to help delineate the organs and their positions. A CT scan exposes the patient to a minimal amount of radiation. The most common side effect is an adverse reaction to intravenous contrast material that may have been given prior to the procedure. This may result in itching, a rash, or hives that generally disappear rather quickly. Severe anaphylactic reactions (life-threatening allergic reactions with breathing difficulties) to contrast material are rare. CT scans of the abdomen may identify metastatic cancer in the liver or adrenal glands, and CT scans of the head may be ordered to reveal the presence and extent of metastatic cancer in the brain.
• A technique called a low-dose helical CT scan (or spiral CT scan) is sometimes used in screening for lung cancers. This procedure requires a special type of CT scanner and has been shown to be an effective tool for the identification of small lung cancers in smokers and former smokers. However, it has not yet been proven whether the use of this technique actually saves lives or lowers the risk of death from lung cancer. The heightened sensitivity of this method is actually one of the sources of its drawbacks, since lung nodules requiring further evaluation will be seen in approximately 20% of people with this technique. Of the nodules identified by low-dose helical screening CTs, 90% are not cancerous but require up to two years of costly and often uncomfortable follow-up and testing. Trials are underway to further determine the utility of spiral CT scans in screening for lung cancer.
• Magnetic resonance imaging (MRI) scans may be appropriate when precise detail about a tumor’s location is required. The MRI technique uses magnetism, radio waves, and a computer to produce images of body structures. As with CT scanning, the patient is placed on a moveable bed which is inserted into the MRI scanner. There are no known side effects of MRI scanning, and there is no exposure to radiation. The image and resolution produced by MRI is quite detailed and can detect tiny changes of structures within the body. People with heart pacemakers, metal implants, artificial heart valves, and other surgically implanted structures cannot be scanned with an MRI because of the risk that the magnet may move the metal parts of these structures.
• Positron emission tomography (PET) scanning is a specialized imaging technique that uses short-lived radioactive drugs to produce three-dimensional colored images of those substances in the tissues within the body. While CT scans and MRI scans look at anatomical structures, PET scans measure metabolic activity and the function of tissues. PET scans can determine whether a tumor tissue is actively growing and can aid in determining the type of cells within a particular tumor. In PET scanning, the patient receives a short half-lived radioactive drug, receiving approximately the amount of radiation exposure as two chest X-rays. The drug accumulates in certain tissues more than others, depending on the drug that is injected. The drug discharges particles known as positrons from whatever tissues take them up. As the positrons encounter electrons within the body, a reaction producing gamma rays occurs. A scanner records these gamma rays and maps the area where the radioactive drug has accumulated. For example, combining glucose (a common energy source in the body) with a radioactive substance will show where glucose is rapidly being used, for example, in a growing tumor. PET scanning may also be integrated with CT scanning in a technique known as PET-CT scanning. Integrated PET-CT has been shown to improve the accuracy of staging (see below) over PET scanning alone.
• Bone scans are used to create images of bones on a computer screen or on film. Doctors may order a bone scan to determine whether a lung cancer has metastasized to the bones. In a bone scan, a small amount of radioactive material is injected into the bloodstream and collects in the bones, especially in abnormal areas such as those involved by metastatic tumors. The radioactive material is detected by a scanner, and the image of the bones is recorded on a special film for permanent viewing.
• Sputum cytology: The diagnosis of lung cancer always requires confirmation of malignant cells by a pathologist, even when symptoms and X-ray studies are suspicious for lung cancer. The simplest method to establish the diagnosis is the examination of sputum under a microscope. If a tumor is centrally located and has invaded the airways, this procedure, known as a sputum cytology examination, may allow visualization of tumor cells for diagnosis. This is the most risk-free and inexpensive tissue diagnostic procedure, but its value is limited since tumor cells will not always be present in sputum even if a cancer is present. Also, noncancerous cells may occasionally undergo changes in reaction to inflammation or injury that makes them look like cancer cells.
• Bronchoscopy: Examination of the airways by bronchoscopy (visualizing the airways through a thin, fiber optic probe inserted through the nose or mouth) may reveal areas of tumor that can be sampled (biopsied) for diagnosis by a pathologist. A tumor in the central areas of the lung or arising from the larger airways is accessible to sampling using this technique. Bronchoscopy may be performed using a rigid or a flexible fiber optic bronchoscope and can be performed in a same-day outpatient bronchoscopy suite, an operating room, or on a hospital ward. The procedure can be uncomfortable, and it requires sedation or anesthesia. While bronchoscopy is relatively safe, it must be carried out by a lung specialist (pulmonologist or surgeon) experienced in the procedure. When a tumor is visualized and adequately sampled, an accurate cancer diagnosis usually is possible. Some patients may cough up dark-brown blood for one to two days after the procedure. More serious but rare complications include a greater amount of bleeding, decreased levels of oxygen in the blood, and heart arrhythmias as well as complications from sedative medications and anesthesia.
• Needle biopsy: Fine needle aspiration (FNA) through the skin, most commonly performed with radiological imaging for guidance, may be useful in retrieving cells for diagnosis from tumor nodules in the lungs. Needle biopsies are particularly useful when the lung tumor is peripherally located in the lung and not accessible to sampling by bronchoscopy. A small amount of local anesthetic is given prior to insertion of a thin needle through the chest wall into the abnormal area in the lung. Cells are suctioned into the syringe and are examined under the microscope for tumor cells. This procedure is generally accurate when the tissue from the affected area is adequately sampled, but in some cases, adjacent or uninvolved areas of the lung may be mistakenly sampled. A small risk (3%-5%) of an air leak from the lungs (called a pneumothorax, which can easily be treated) accompanies the procedure.
• Thoracentesis: Sometimes lung cancers involve the lining tissue of the lungs (pleura) and lead to an accumulation of fluid in the space between the lungs and chest wall (called a pleural effusion). Aspiration of a sample of this fluid with a thin needle (thoracentesis) may reveal the cancer cells and establish the diagnosis. As with the needle biopsy, a small risk of a pneumothorax is associated with this procedure.
• Major surgical procedures: If none of the aforementioned methods yields a diagnosis, surgical methods must be employed to obtain tumor tissue for diagnosis. These can include mediastinoscopy (examining the chest cavity between the lungs through a surgically inserted probe with biopsy of tumor masses or lymph nodes that may contain metastases) or thoracotomy (surgical opening of the chest wall for removal or biopsy of a tumor). With a thoracotomy, it is rare to be able to completely remove a lung cancer, and both mediastinoscopy and thoracotomy carry the risks of major surgical procedures (complications such as bleeding, infection, and risks from anesthesia and medications). These procedures are performed in an operating room, and the patient must be hospitalized.
• Blood tests: While routine blood tests alone cannot diagnose lung cancer, they may reveal biochemical or metabolic abnormalities in the body that accompany cancer. For example, elevated levels of calcium or of the enzyme alkaline phosphatase may accompany cancer that is metastatic to the bones. Likewise, elevated levels of certain enzymes normally present within liver cells, including aspartate aminotransferase(AST or SGOT) and alanine aminotransferase (ALT or SGPT), signal liver damage, possibly through the presence of tumor metastatic to the liver. One current focus of research in the area of lung cancer is the development of a blood test to aid in the diagnosis of lung cancer. Researchers have preliminary data that has identified specific proteins, or biomarkers, that are in the blood and may signal that lung cancer is present in someone with a suspicious area seen on a chest X-ray or other imaging study.
Schematic illustration of a lung cancer located in the right upper lobe of the lung.
Reviewed by Jay W. Marks, MD on 1/31/2011
©2012, WebMD, LLC. All rights reserved, Source: WebMD
What is staging of lung cancer?
The stage of a cancer is a measure of the extent to which a cancer has spread in the body. Staging involves evaluation of a cancer’s size and its penetration into surrounding tissue as well as the presence or absence of metastases in the lymph nodes or other organs. Staging is important for determining how a particular cancer should be treated, since lung-cancer therapies are geared toward specific stages. Staging of a cancer also is critical in estimating the prognosis of a given patient, with higher-stage cancers generally having a worse prognosis than lower-stage cancers.
Doctors may use several tests to accurately stage a lung cancer, including laboratory (blood chemistry) tests, X-rays, CT scans, bone scans, MRI scans, and PET scans. Abnormal blood chemistry tests may signal the presence of metastases in bone or liver, and radiological procedures can document the size of a cancer as well as its spread.
NSCLC are assigned a stage from I to IV in order of severity:
• In stage I, the cancer is confined to the lung.
• In stages II and III, the cancer is confined to the chest (with larger and more invasive tumors classified as stage III).
• Stage IV cancer has spread from the chest to other parts of the body.
SCLC are staged using a two-tiered system:
• Limited-stage (LS) SCLC refers to cancer that is confined to its area of origin in the chest.
• In extensive-stage (ES) SCLC, the cancer has spread beyond the chest to other parts of the body.
What is the treatment for lung cancer?
Treatment for lung cancer can involve surgical removal of the cancer, chemotherapy, or radiation therapy, as well as combinations of these treatments. The decision about which treatments will be appropriate for a given individual must take into account the location and extent of the tumor as well as the overall health status of the patient.
As with other cancers, therapy may be prescribed that is intended to be curative (removal or eradication of a cancer) or palliative (measures that are unable to cure a cancer but can reduce pain and suffering). More than one type of therapy may be prescribed. In such cases, the therapy that is added to enhance the effects of the primary therapy is referred to as adjuvant therapy. An example of adjuvant therapy is chemotherapy or radiotherapy administered after surgical removal of a tumor in an attempt to kill any tumor cells that remain following surgery.
Surgery: Surgical removal of the tumor is generally performed for limited-stage (stage I or sometimes stage II) NSCLC and is the treatment of choice for cancer that has not spread beyond the lung. About 10%-35% of lung cancers can be removed surgically, but removal does not always result in a cure, since the tumors may already have spread and can recur at a later time. Among people who have an isolated, slow-growing lung cancer removed, 25%-40% are still alive five years after diagnosis. It is important to note that although a tumor may be anatomically suitable for resection, surgery may not be possible if the person has other serious conditions (such as severe heart or lung disease) that would limit their ability to survive an operation. Surgery is less often performed with SCLC than with NSCLC because these tumors are less likely to be localized to one area that can be removed.
The surgical procedure chosen depends upon the size and location of the tumor. Surgeons must open the chest wall and may perform a wedge resection of the lung (removal of a portion of one lobe), a lobectomy (removal of one lobe), or a pneumonectomy (removal of an entire lung). Sometimes lymph nodes in the region of the lungs also are removed (lymphadenectomy). Surgery for lung cancer is a major surgical procedure that requires general anesthesia, hospitalization, and follow-up care for weeks to months. Following the surgical procedure, patients may experience difficulty breathing, shortness of breath, pain, and weakness. The risks of surgery include complications due to bleeding, infection, and complications of general anesthesia.
Radiation: Radiation therapy may be employed as a treatment for both NSCLC and SCLC. Radiation therapy uses high-energy X-rays or other types of radiation to kill dividing cancer cells. Radiation therapy may be given as curative therapy, palliative therapy (using lower doses of radiation than with curative therapy), or as adjuvant therapy in combination with surgery or chemotherapy. The radiation is either delivered externally, by using a machine that directs radiation toward the cancer, or internally through placement of radioactive substances in sealed containers within the area of the body where the tumor is localized. Brachytherapy is a term used to describe the use of a small pellet of radioactive material placed directly into the cancer or into the airway next to the cancer. This is usually done through a bronchoscope.
Radiation therapy can be given if a person refuses surgery, if a tumor has spread to areas such as the lymph nodes or trachea making surgical removal impossible, or if a person has other conditions that make them too ill to undergo major surgery. Radiation therapy generally only shrinks a tumor or limits its growth when given as a sole therapy, yet in 10%-15% of people it leads to long-term remission and palliation of the cancer. Combining radiation therapy with chemotherapy can further prolong survival when chemotherapy is administered. External radiation therapy can generally be carried out on an outpatient basis, while internal radiation therapy requires a brief hospitalization. A person who has severe lung disease in addition to a lung cancer may not be able to receive radiotherapy to the lung since the radiation can further decrease function of the lungs. A type of external radiation therapy called the “gamma knife” is sometimes used to treat single brain metastases. In this procedure, multiple beams of radiation coming from different directions are focused on the tumor over a few minutes to hours while the head is held in place by a rigid frame. This reduces the dose of radiation that is received by noncancerous tissues.
For external radiation therapy, a process called simulation is necessary prior to treatment. Using CT scans, computers, and precise measurements, simulation maps out the exact location where the radiation will be delivered, called the treatment field or port. This process usually takes 30 minutes to two hours. The external radiation treatment itself generally is done four or five days a week for several weeks.
Radiation therapy does not carry the risks of major surgery, but it can have unpleasant side effects, including fatigue and lack of energy. A reduced white blood cell count (rendering a person more susceptible to infection) and low blood platelet levels (making blood clotting more difficult and resulting in excessive bleeding) also can occur with radiation therapy. If the digestive organs are in the field exposed to radiation, patients may experience nausea, vomiting, or diarrhea. Radiation therapy can irritate the skin in the area that is treated, but this irritation generally improves with time after treatment has ended.
Chemotherapy: Both NSCLC and SCLC may be treated with chemotherapy. Chemotherapy refers to the administration of drugs that stop the growth of cancer cells by killing them or preventing them from dividing. Chemotherapy may be given alone, as an adjuvant to surgical therapy, or in combination with radiotherapy. While a number of chemotherapeutic drugs have been developed, the class of drugs known as the platinum-based drugs have been the most effective in treatment of lung cancers.
Chemotherapy is the treatment of choice for most SCLC, since these tumors are generally widespread in the body when they are diagnosed. Only half of people who have SCLC survive for four months without chemotherapy. With chemotherapy, their survival time is increased up to four- to fivefold. Chemotherapy alone is not particularly effective in treating NSCLC, but when NSCLC has metastasized, it can prolong survival in many cases.
Chemotherapy may be given as pills, as an intravenous infusion, or as a combination of the two. Chemotherapy treatments usually are given in an outpatient setting. A combination of drugs is given in a series of treatments, called cycles, over a period of weeks to months, with breaks in between cycles. Unfortunately, the drugs used in chemotherapy also kill normally dividing cells in the body, resulting in unpleasant side effects. Damage to blood cells can result in increased susceptibility to infections and difficulties with blood clotting (bleeding or bruising easily). Other side effects include fatigue, weight loss, hair loss, nausea, vomiting, diarrhea, and mouth sores. The side effects of chemotherapy vary according to the dosage and combination of drugs used and may also vary from individual to individual. Medications have been developed that can treat or prevent many of the side effects of chemotherapy. The side effects generally disappear during the recovery phase of the treatment or after its completion.
Prophylactic brain radiation: SCLC often spreads to the brain. Sometimes people with SCLC that is responding well to treatment are treated with radiation therapy to the head to treat very early spread to the brain (called micro metastasis) that is not yet detectable with CT or MRI scans and has not yet produced symptoms. Brain radiation therapy can cause short-term memory problems, fatigue, nausea, and other side effects.
Treatment of recurrence: Lung cancer that has returned following treatment with surgery, chemotherapy, and/or radiation therapy is referred to as recurrent or relapsed. If a recurrent cancer is confined to one site in the lung, it may be treated with surgery. Recurrent tumors generally do not respond to the chemotherapeutic drugs that were previously administered. Since platinum-based drugs are generally used in initial chemotherapy of lung cancers, these agents are not useful in most cases of recurrence. A type of chemotherapy referred to as second-line chemotherapy is used to treat recurrent cancers that have previously been treated with chemotherapy, and a number of second-line chemotherapeutic regimens have been proven effective at prolonging survival. People with recurrent lung cancer who are well enough to tolerate therapy also are good candidates for experimental therapies (see below), including clinical trials.
Targeted therapy: The drugs erlotinib (Tarceva) and gefitinib (Iressa) are so-called targeted drugs, which may be used in certain patients with NSCLC who are no longer responding to chemotherapy. Targeted therapy drugs more specifically target cancer cells, resulting in less damage to normal cells than general chemotherapeutic agents. Erlotinib and gefitinib target a protein called the epidermal growth factor receptor (EGFR) that is important in promoting the division of cells. This protein is found at abnormally high levels on the surface of some types of cancer cells, including many cases of non-small cell lung cancer.
Other attempts at targeted therapy include drugs known as antiangiogenesis drugs, which block the development of new blood vessels within a cancer. Without adequate blood vessels to supply oxygen-carrying blood, the cancer cells will die. The antiangiogenic drug bevacizumab (Avastin) has also been found to prolong survival in advanced lung cancer when it is added to the standard chemotherapy regimen. Bevacizumab is given intravenously every two to three weeks. However, since this drug may cause bleeding, it is not appropriate for use in patients who are coughing up blood, if the lung cancer has spread to the brain, or in people who are receiving anticoagulation therapy (“blood thinner” medications). Bevacizumab also is not used in cases of squamous cell cancer because it leads to bleeding from this type of lung cancer.
Cetuximab is an antibody that binds to the epidermal growth factor receptor (EGFR).. In patients with NSCLC whose tumors have been shown to express the EGFR by immunohistochemical analysis, the addition of cetuximab may be considered for some patients.
Photodynamic therapy (PDT): One newer therapy used for different types and stages of lung cancer (as well as some other cancers) is photodynamic therapy. In photodynamic treatment, a photosynthesizing agent (such as a porphyrin, a naturally occurring substance in the body) is injected into the bloodstream a few hours prior to surgery. During this time, the agent is taken up in rapidly growing cells such as cancer cells. A procedure then follows in which the physician applies a certain wavelength of light through a handheld wand directly to the site of the cancer and surrounding tissues. The energy from the light activates the photosensitizing agent, causing the production of a toxin that destroys the tumor cells. PDT has the advantages that it can precisely target the location of the cancer, is less invasive than surgery, and can be repeated at the same site if necessary. The drawbacks of PDT are that it is only useful in treating cancers that can be reached with a light source and is not suitable for treatment of extensive cancers. The U.S. Food and Drug Administration (FDA) has approved the photosensitizing agent called porfimer sodium (Photofrin) for use in PDT to treat or relieve the symptoms of esophageal cancer and non-small cell lung cancer. Further research is ongoing to determine the effectiveness of PDT in other types of lung cancer.
Radiofrequency ablation (RFA): Radiofrequency ablation is being studied as an alternative to surgery, particularly in cases of early stage lung cancer. In this type of treatment, a needle is inserted through the skin into the cancer, usually under guidance by CT scanning. Radiofrequency (electrical) energy is then transmitted to the tip of the needle where it produces heat in the tissues, killing the cancerous tissue and closing small blood vessels that supply the cancer. RFA usually is not painful and has been approved by the U.S. Food and Drug Administration for the treatment of certain cancers, including lung cancers. Studies have shown that this treatment can prolong survival similarly to surgery when used to treat early stages of lung cancer but without the risks of major surgery and the prolonged recovery time associated with major surgical procedures.
Experimental therapies: Since no therapy is currently available that is absolutely effective in treating lung cancer, patients may be offered a number of new therapies that are still in the experimental stage, meaning that doctors do not yet have enough information to decide whether these therapies should become accepted forms of treatment for lung cancer. New drugs or new combinations of drugs are tested in so-called clinical trials, which are studies that evaluate the effectiveness of new medications in comparison with those treatments already in widespread use. Experimental treatments known as immunotherapies are being studied that involve the use of vaccine-related therapies or other therapies that attempt to utilize the body’s immune system to fight cancer cells.
Reviewed by Jay W. Marks, MD on 1/31/2011
©2012, WebMD, LLC. All rights reserved Source: WebMD
What is the prognosis (outcome) of lung cancer?
The prognosis of lung cancer refers to the chance for cure or prolongation of life (survival) and is dependent upon where the cancer is located, the size of the cancer, the presence of symptoms, the type of lung cancer, and the overall health status of the patient.
SCLC has the most aggressive growth of all lung cancers, with a median survival time of only two to four months after diagnosis when untreated. (That is, by two to four months, half of all patients have died.) However, SCLC is also the type of lung cancer most responsive to radiation therapy and chemotherapy. Because SCLC spreads rapidly and is usually disseminated at the time of diagnosis, methods such as surgical removal or localized radiation therapy are less effective in treating this type of lung cancer. When chemotherapy is used alone or in combination with other methods, survival time can be prolonged four- to fivefold; however, of all patients with SCLC, only 5%-10% are still alive five years after diagnosis. Most of those who survive have limited-stage SCLC.
In non-small cell lung cancer (NSCLC), the most important prognostic factor is the stage (extent of spread) of the tumor at the time of diagnosis. Results of standard treatment are generally poor in all but the most smallest of cancers that can be surgically removed. However, in stage I cancers that can be completely removed surgically, five-year survival approaches 75%. Radiation therapy can produce a cure in a small minority of patients with NSCLC and leads to relief of symptoms in most patients. In advanced-stage disease, chemotherapy offers modest improvements in survival although rates of overall survival are poor.
The overall prognosis for lung cancer is poor when compared with some other cancers. Survival rates for lung cancer are generally lower than those for most cancers, with an overall five-year survival rate for lung cancer of about 16% compared to 65% for colon cancer, 89% for breast cancer, and over 99% for prostate cancer.
Reviewed by Jay W. Marks, MD on 1/31/2011
©2012, WebMD, LLC. All rights reserved Source: WebMD
How can lung cancer be prevented?
Cessation of smoking and eliminating exposure to tobacco smoke is the most important measure that can prevent lung cancer. Many products, such as nicotine gum, nicotine sprays, or nicotine inhalers, may be helpful to people trying to quit smoking. Minimizing exposure to passive smoking also is an effective preventive measure. Using a home radon test kit can identify and allow correction of increased radon levels in the home. Methods that allow early detection of cancers, such as the helical low-dose CT scan, also may be of value in the identification of small cancers that can be cured by surgical resection and prevented from becoming widespread, incurable, metastatic cancer.
Lung Cancer At A Glance
• Lung cancer is the number-one cause of cancer deaths in both men and women in the U.S. and worldwide.
• Cigarette smoking is the principal risk factor for development of lung cancer.
• Passive exposure to tobacco smoke also can cause lung cancer.
• The two types of lung cancer, which grow and spread differently, are the small cell lung cancers (SCLC) and non-small cell lung cancers (NSCLC).
• The stage of lung cancer refers to the extent to which the cancer has spread in the body.
• Treatment of lung cancer can involve a combination of surgery, chemotherapy, and radiation therapy as well as newer experimental methods.
• The general prognosis of lung cancer is poor, with overall survival rates of about 16% at five years.
• Smoking cessation is the most important measure that can prevent the development of lung cancer.
Additional resources from WebMD Boots UK on Lung Cancer
REFERENCES:
Hung, R.J., et al. A Susceptibility Locus for Lung Cancer Maps to Nicotinic Acetylcholine Receptor Subunit Genes on 15q25.” Nature 452.7187 Apr. 3, 2008: 633-637.
McKeage, Mark J., et al. “Phase II Study of ASA404 (vadimezan, 5,6-dimethylxanthenone-4-acetic acid/DMXAA) 1800 mg/m2 Combined With Carboplatin and Paclitaxel in Previously Untreated Advanced Non-Small Cell Lung Cancer.” Lung Cancer 65.2 Aug. 2009: 192-197.
United States. National Cancer Institute (NCI). “Lung Cancer.” July 26, 2007. <http://www.cancer.gov/cancertopics/types/lung>.
“What Are the Key Statistics About Lung Cancer?” American Cancer Society. Oct. 20, 2009. <http://www.cancer.org/docroot/CRI/content/CRI_2_4_1x_What_Are_the_Key_Statistics_About _Lung_Cancer_15.asp?sitearea=>.
“What You Need to Know About Lung Cancer.” National Cancer Institute, U.S. National Institutes of Health. July 26, 2007. <http://www.cancer.gov/cancertopics/types/lung>.
Reviewed by Jay W. Marks, MD on 1/31/2011
©2012, WebMD, LLC. All rights reserved Source: WebMD
Pulmonary Nodule
Solitary Pulmonary Nodule
Medical Author:
Sat Sharma, MD, FRCPC, FCCP
Coauthor:
Shehnaz Shaikh, MD
Medical Editor:
Winston W Tan, MD
Medical Editor:
Mary L Windle, PharmD
Medical Editor:
Shreekanth V Karwande, MBBS
Solitary Pulmonary Nodule Overview
A solitary pulmonary nodule (SPN) is a single abnormality in the lung that is smaller than 3 cm in diameter. Generally, a pulmonary nodule must grow to at least 1 cm in diameter before it can be seen on a chest X-ray film.
An SPN is surrounded by normal lung tissue and is not associated with any other abnormality in the lung or nearby lymph nodes (small, bean-shaped structures found throughout the body).
Persons with SPNs usually do not experience symptoms. SPNs are usually noticed by chance on a chest X-ray film that has been taken for another reason (referred to as an incidental finding). SPNs are one of the most common abnormalities seen on chest X-ray films. Approximately 150,000 cases are detected every year as incidental findings, either on X-ray films or CT scans.
Most SPNs are benign (noncancerous); however, they may represent an early stage of primary lung cancer or may indicate that cancer is metastasizing (spreading) from another part of the body to the affected lung. Determining whether the SPN seen on the chest X-ray film or chest CT scan is benign or malignant (cancerous) is important. Prompt diagnosis and treatment of early lung cancer that presents as SPN may be the only chance to cure the cancer.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Solitary Pulmonary Nodule Causes
Solitary pulmonary nodules may have the following causes:
- Neoplastic (an abnormal growth that can be benign or malignant)
- Lung cancer
- Metastasis (spread of cancer from other parts of the body to the lung)
- Lymphoma (a tumor made up of lymphoid tissue)
- Carcinoid (a small, slow-growing tumor that can spread)
- Hamartoma (an abnormal mass of normal tissues that are poorly organized)
- Fibroma (a tumor made up of fibrous connective tissue)
- Neurofibroma (a noncancerous tumor made up of nerve fibers)
- Blastoma (a tumor composed mainly of immature, undifferentiated cells)
- Sarcoma (a tumor made up of connective tissue [usually cancerous])
- Inflammatory (infectious) – Granuloma (small, granular inflammatory lesions)
- Infection caused by bacteria – Tuberculosis
- Infections caused by fungi – Histoplasmosis, coccidioidomycosis, blastomycosis, cryptococcosis, nocardiosis
- Other infectious causes
- Lung abscess (an infection in which cells of a part of the lung die)
- Round pneumonia (infection caused by virus or bacteria; air spaces of the lungs are filled with fluid and cells)
- Hydatid cyst (a cyst formed by the larval stage of a tapeworm, Echinococcus);
- Inflammatory (noninfectious)
- Rheumatoid arthritis (a generalized disease of the connective tissues; joint pain is the main symptom)
- Wegener granulomatosis (inflammation of the small blood vessels characterized by lesions that kill the cells in different organs of the body)
- Sarcoidosis (a disease characterized by granular lesions of unknown cause that involves various organs of the body)
- Lipoid (resembling fat) pneumonia
- Congenital
- Arteriovenous malformation (failure of proper or normal development of arteries and veins)
- Sequestration (a piece of lung tissue that has become separated from the surrounding healthy tissue)
- Lung cyst (an abnormal sac that contains gas, fluid, or a semisolid material, with a membranous lining)
- Miscellaneous
- Pulmonary infarct (death of cells or of a portion of lung, resulting from a sudden insufficiency of arterial or venous blood supply)
- Round atelectasis (decreased or absent air in a part of the lung)
- Mucoid impaction (the filling of parts of the lung with mucus)
- Progressive massive fibrosis (formation of fibrous tissue as a reactive process, as opposed to formation of fibrous tissue as a normal constituent of an organ or tissue)
- Occasionally, a shadow on the X-ray film may be mistaken for an SPN
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Solitary Pulmonary Nodule Symptoms
Most persons with SPN do not experience symptoms. Generally, SPN is detected as an incidental finding.
Approximately 20-30% of all cases of lung cancer appear as SPNs on chest X-ray films. Therefore, the goal of investigating an SPN is to differentiate a benign growth from a malignant growth as soon and as accurately as possible.
SPNs should be considered potentially cancerous until proven otherwise.
People should always communicate openly and honestly with their health care provider about their history and risk factors.
The following features are important when assessing whether the SPN is benign or malignant.
- Age: Risk of malignancy increases with age.
- Risk of 3% at age 35-39 years
- Risk of 15% at age 40-49 years
- Risk of 43% at age 50-59 years
- Risk of greater than 50% in persons older than 60 years
- Smoking history: A history of smoking increases the chances of the SPN being malignant.
- Prior history of cancer: People with a history of cancer in other areas of the body have a greater chance that the SPN is malignant.
- Occupational risk factors for lung cancer: Exposure to asbestos, radon,nickel, chromium, vinyl chloride, and polycyclic hydrocarbons increases the chance that the SPN is malignant.
- Travel history: People who have traveled to areas with endemic mycosis (for example, histoplasmosis, coccidioidomycosis, blastomycosis) or a high prevalence of tuberculosis have a higher chance of the SPN being benign.
- People who have a history of tuberculosis or pulmonary mycosis have a greater chance of the SPN being benign.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Exams and Tests
Blood tests are not diagnostic. However, the following tests may indicate whether the SPN is benign or malignant:
- Anemia (low levels of hemoglobin) or an elevated erythrocyte sedimentation rate(speed at which red blood cells settle in anticoagulated blood) may indicate an underlying cancer or an infectious disease.
- Elevated levels of liver enzymes, alkaline phosphatase, or serum calcium may indicate that the SPN is cancerous and spreading or that cancer is spreading from other parts of the body to the lung.
- Persons who have histoplasmosis or coccidioidomycosis may have high levels of immunoglobulin G and immunoglobulin M antibodies specific to these fungi.
A tuberculin skin test is a simple skin test used to help determine whether the SPN has been caused by the bacteria Mycobacterium tuberculosis. The test involves injecting the tuberculin antigen (a substance that triggers the immune system to produce cells [antibodies] that attack and try to destroy the antigen) into the skin and observing the body’s response. If the SPN has been caused by tuberculosis, the injection site swells and reddens.
©2012, WebMD, LLC. All rights reserved Source: WebMD
Chest X-ray
- Because SPNs are first detected on chest X-ray films, ascertaining whether the nodule is in the lung or outside it is important. A chest X-ray film taken from a lateral (side) position, fluoroscopy, or CT scanmay help confirm the location of the nodule.
- Although nodules of 5 mm diameter are occasionally found on chest X-ray films, SPNs are often 8-10 mm in diameter.
- The most important step is determining the possibility and risk of the SPN being malignant.
- Patients who have an older chest X-ray film should show it to their health care provider for comparison. This is important because the growth rate of a nodule can be ascertained. The doubling time of most malignant SPNs is 1-6 months, and any nodule that grows more slowly or more rapidly is likely to be benign.
- Chest X-ray films can provide information regarding size, shape, cavitation, growth rate, and calcification pattern. All of these features can help determine whether the lesion is benign or malignant. However, none of these features is entirely specific for lung cancer.
- Radiologic characteristics that may help establish the diagnosis with reasonable certainty include (1) a benign pattern of calcification, (2) a growth rate that is either too slow or too fast to be lung cancer, (3) a specific shape or appearance of the nodule consistent with that of a benign lesion, and (4) unequivocal evidence of another benign disease process.
CT scan
- CT scan is an invaluable aid in identifying features of the nodule and determining the likelihood of cancer. In addition to the features seen on a chest X-ray film, CT scan of the chest allows better assessment of the nodule. The advantages of CT scan over chest X-ray film include the following:
- Better resolution: Nodules as small as 3-4 mm can be detected. Features of the SPN are better visualized on CT scan, thereby aiding the diagnosis.
- Better localization: Nodules can be more accurately localized.
- Areas that are difficult to assess on chest X-ray film are visualized better on CT scan.
- CT scan provides more details of the internal structures and more readily shows calcifications.
- If the CT scan demonstrates fat within the nodule, the lesion is benign. This is specific for a benign lesion (ie, hamartoma).
- CT scan helps distinguish between a neoplastic abnormality and an infective abnormality.
Positron emission tomography
- Malignant cells have a higher metabolic rate than normal cells and benign abnormalities; therefore, the glucose uptake of malignant cells is higher. Positron emission tomography (PET) involves using a radiolabeled substance to measure the metabolic activity of the abnormal cells. Malignant nodules absorb more of the substance than benign nodules and normal tissue and can be readily identified on the 3-dimensional, colored image.
- PET scan is an accurate, noninvasive exam, but the procedure is expensive.
Single-photon emission computed tomography
- Single-photon emission computed tomography (SPECT) imaging is performed using a radiolabeled substance, technetium Tc P829.
- SPECT scans are less expensive than PET scans but have comparable sensitivity and specificity. However, the test has not been evaluated in a large number of persons. In addition, the SPECT scans are less sensitive for nodules smaller than 20 mm in diameter.
Biopsy (a sample of cells is removed for examination under a microscope): Different ways are used to collect biopsy samples from the airway or lung tissue where the SPN is located.
©2012, WebMD, LLC. All rights reserved Source: WebMD
Biopsies
Bronchoscopy: This procedure is used for SPNs that are situated closer to the walls of the airways. A bronchoscope (a thin, flexible, lighted tube with a tiny camera at the end) is inserted through the mouth or nose and down the windpipe. From there, it can be inserted into the airways (bronchi) of the lungs. During bronchoscopy, the health care professional takes a biopsy sample from the SPN. If the lesion is not easily accessible on the airway wall or is smaller than 2 cm in diameter, a needle biopsy may be performed. This procedure is called a transbronchial needle aspiration (TBNA) biopsy.
Transthoracic needle aspiration (TTNA) biopsy: This type of biopsy is used if the lesion is not easily accessible on the airway wall or is smaller than 2 cm in diameter. If the SPN is on the periphery of the lung, a biopsy sample has to be taken with the help of a needle inserted through the chest wall and into the SPN. It is usually performed with CT guidance. With SPNs larger than 2 cm in diameter, the diagnostic accuracy is higher (90-95%). However, the accuracy decreases (60-80%) in nodules that are smaller than 2 cm in diameter.
©2012, WebMD, LLC. All rights reserved Source: WebMD
Solitary Pulmonary Nodule Treatment
Based on the results of exams and tests, persons with SPN can be divided into the following 3 groups:
- Persons with benign SPN: Persons who have been diagnosed with benign SPN should undergo chest X-ray films or CT scans every 3-4 months in the first year, every 6 months in the second year, and once every year for up to 5 years. Determining that the SPN is benign is based on the following:
- Persons younger than 35 years without other risk factors
- Benign appearance on chest X-ray film
- Stability of the SPN over a period of 2 years on chest X-ray film
- Persons with a malignant SPN: Persons who have been diagnosed with a malignant SPN based on the results of the exams and tests should have the nodule surgically removed.
- Persons with SPN that cannot be classified as either benign or malignant: Most persons fall into this category. However, as many as 75% of these patients have malignant nodules on further evaluation. Therefore,
- such persons are also advised surgical removal.
©2012, WebMD, LLC. All rights reserved Source: WebMD
Surgery
The SPN should be surgically removed in patients who have (1) a moderate-to-high risk for cancer and clinical signs that indicate that the nodule is malignant or (2) a nodule whose malignancy status cannot be determined even after a biopsy. SPN is removed surgically by either thoracotomy (open lung surgery) or a video-assisted thoracoscopic surgery (VATS).
- Thoracotomy involves making a cut in the chest wall and removing small wedges of lung tissue. Patients undergoing this procedure are usually required to stay in the hospital for several days afterward. This procedure has a small risk for mortality.
- Video-assisted thoracoscopy is performed with the help of a thoracoscope (a flexible, lighted tube with a tiny camera at the end) inserted into the chest through a small cut on the chest wall. The camera displays the image on a TV screen, and the surgeon uses the display to guide the operation. Its advantages over thoracotomy include a shorter recovery time and a smaller incision.
©2012, WebMD, LLC. All rights reserved Source: WebMD
Follow-up
Persons who have been diagnosed with a benign SPN should schedule the recommended follow-up, as follows:
- Chest X-ray films should be taken every 3 months for the first 12 months and then every 6 months for the following 12 months.
- After this 2-year period, SPNs may be observed yearly for up to 5 years.
©2012, WebMD, LLC. All rights reserved Source: WebMD
Prevention
Avoiding the possible causes may help prevent SPN formation. Possible avoidable causes include the following:
Smoking: For information about how to quit smoking, visit the following links:
National Cancer Institute, Clearing the Air, Quit Smoking Today
American Lung Association, Quit Smoking
Smokefree.gov
Quitnet
Traveling to areas endemic for mycosis (for example, histoplasmosis, coccidioidomycosis, blastomycosis) or to areas with a high prevalence of tuberculosis
Occupational exposure to risk factors for lung cancer (for example, asbestos, radon, nickel, chromium, vinyl chloride, polycyclic hydrocarbons)
©2012, WebMD, LLC. All rights reserved Source: WebMD
Outlook
Most SPNs are benign, but they may represent an early stage of lung cancer.
Lung cancer survival rates remain dismally low at 14% at 5 years. However, early lung cancer (ie, lung cancer that is diagnosed when the primary tumor is smaller than 3 cm in diameter [stage 1A]), can be associated with a 5-year survival rate of 70-80%.
Accordingly, the only chance for cure of early lung cancer that presents as SPN is prompt diagnosis and treatment.
©2012, WebMD, LLC. All rights reserved Source: WebMD
Authors and Editors
Author:Sat Sharma, MD, FRCPC, FCCP,Program Director, Associate Professor, Department of Internal Medicine, Divisions of Pulmonary and Critical Care Medicine, University of Manitoba; Site Coordinator of Respiratory Medicine, St Boniface General Hospital.
Coauthor(s): Shehnaz Shaikh, MD, Medical Writer, eMedicine.com, Inc.
Editors:Winston W Tan, MD, Assistant Professor, Department of Medicine, MayoMedical School; Mary L Windle, Pharm D, Adjunct Assistant Professor, University of Nebraska Medical Center College of Pharmacy; Pharmacy Editor, eMedicine.com, Inc; Shreekanth V Karwande, MBBS, Chair, Professor, Department of Surgery, Division of Cardiothoracic Surgery, University of Utah School of Medicine and Medical Center.
©2012, WebMD, LLC. All rights reserved Source: WebMD
Shortness of Breath
Shortness of Breath Symptoms
Symptom Checker: Symptoms & Signs Index
Medical Author: William C. Shiel Jr., MD, FACP, FACR
Related
Symptoms & Signs
Wheezing
Cough
Chest Pain
Shortness of breath has many causes affecting either the breathing passages and lungs or the heart or blood vessels. However, the causes fall into simple categories that we have listed for you below. Shortness of breath is also referred to as dyspnea. Doctors will further classify dyspnea as either occurring at rest or being associated with activity or exercise. They will also want to know if the dyspnea occurs gradually or all of a sudden. Each of these symptoms help to detect the precise cause of the shortness of breath.
An average 150 pound (70 kilogram) adult will breathe at an average rate of 14 breaths per minute at rest. Excessively rapid breathing is referred to as hyperventilation.
For additional symptoms and signs, please visit our Symptom Checker index.
REFERENCE:
Fauci, Anthony S., et al. Harrison’s Principles of Internal Medicine. 17th ed. United States: McGraw-Hill Professional, 2008.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Causes of Shortness of Breath
Allergy
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Amyloidosis
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Amyotrophic Lateral Sclerosis (ALS)
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Anaphylaxis
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Anemia
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Angina
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Anxiety
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Aortic Dissection
Aortic dissection is a small tear in the large blood vessel that leads from the heart and supplies blood to the body. There are…learn more »
Aortic Stenosis
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Asthma
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Asthma in Children
Asthma, the main cause of chronic illness in children, has signs and symptoms in children that include frequent coughing spells,…learn more »
Botulism
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Bronchiectasis
Bronchiectasis is a condition in which the bronchial tubes of the lung become damaged. Inflammation from infection or other…learn more »
Cardiomyopathy (Dilated)
Dilated Cardiomyopathy is a condition where the heart’s ability to pump blood is decreased because the heart’s main pumping…learn more »
Cardiomyopathy (Restrictive)
Restrictive cardiomyopathy, the rarest form of cardiomyopathy, is a condition in which the walls of the lower chambers of the…learn more »
Chagas Disease
Chagas disease is an infection caused by the T. cruzi parasite. Symptoms of Chagas disease include rash, swollen lymph nodes,…learn more »
Chest Pain
Chest pain is a common complaint by a patient in the ER. Causes of chest pain include broken or bruised ribs, pleurisy,…learn more »
Chronic Bronchitis
Chronic bronchitis is a cough that occurs daily with production of sputum that lasts for at least three months, two years in a…learn more »
Colon Cancer
Colon cancer is a malignancy that arises from the inner lining of the colon. Most, if not all, of these cancers develop from…learn more »
Congestive Heart Failure
Congestive heart failure (CHF) is a condition in which the heart’s function as a pump is inadequate to meet the body’s needs. A…learn more »
Diabetes (Type 1 and Type 2)
Diabetes mellitus is a chronic condition characterized by high levels of sugar (glucose) in the blood. The two types of diabetes…learn more »
Emphysema
Emphysema is a progressive disease of the lungs. The primary cause of emphysema is smoking. Alpha 1-antitrypsin deficiency is a…learn more »
Hantavirus
Hantavirus pulmonary syndrome (HPS) is a disease transmitted by rodents. Symptoms include fever and muscle pain. HPS can be…learn more »
Heart Attack
Heart attack happens when a blood clot completely obstructs a coronary artery supplying blood to the heart muscle. A heart…learn more »
Heart Attack Treatment
A heart attack involves damage or death of part of the heart muscle due to a blood clot. The aim of heart attack treatment is to…learn more »
Histoplasmosis
Histoplasmosis is a disease caused by the Histoplasma capsulatum fungus. Symptoms and signs of this infection are fever, dry…learn more »
Hodgkin’s Disease
Hodgkin’s disease is a cancer of the lymphatic system with symptoms that include unexplained, recurring fevers, unexplained…learn more »
Hypersensitivity Pneumonitis
Hypersensitivity Pneumonitis is an inflammation of the lung caused by small airborne particles such as bacteria, mold, fungi, or…learn more »
Hypothyroidism
Hypothyroidism is any state in which thyroid hormone production is below normal. Normally, the rate of thyroid hormone…learn more »
Kidney Failure
Kidney failure can occur from an acute event or a chronic condition or disease. Prerenal kidney failure is caused by blood loss,…learn more »
Lung Cancer
Lung cancer kills more men and women than any other form of cancer. Eight out of 10 lung cancers are due to tobacco smoke. Lung…learn more »
Lupus
Systemic lupus erythematosus is a condition characterized by chronic inflammation of body tissues caused by autoimmune disease….learn more »
Monkeypox
Monkeypox is a viral disease that causes symptoms such as fever, sweating, and a rash with papules and pustules on the face and…learn more »
Multiple Sclerosis
Multiple sclerosis (MS) is a disease which progressively injures the nerves of the brain and spinal cord, reflected by…learn more »
Myasthenia Gravis
Myasthenia gravis, a chronic autoimmune neuromuscular disease. Varying degrees of weakness of the voluntary muscles of the body…learn more »
Obesity
Obesity is the state of being well above one’s normal weight. A person has traditionally been considered to be obese if they are…learn more »
Occupational Asthma
Occupational asthma is a type of asthma caused by exposure to a substance in the workplace. Symptoms and signs include wheezing,…learn more »
Plague
Plague is an infectious disease caused by the Yersinia pestis bacteria, which is primarily found in rodents the fleas that feed…learn more »
Pneumonia
Pneumonia is inflammation of one or both lungs with consolidation. Pneumonia is frequently but not always due to infection. The…learn more »
Polymyositis
Polymyositis is a disease of the muscle featuring inflammation of the muscle fibers. It results in weakness of the muscles which…learn more »
Pregnancy Planning
Pregnancy planning is important to help prevent exposure of the mother and fetus to potentially harmful medications and…learn more »
Pulmonary Edema
Pulmonary edema (swelling or fluid in the lungs) can either be caused by cardiogenic causes (congestive heart failure, heart…learn more »
Pulmonary Embolism (Blood Clot in the Lung)
A pulmonary embolism occurs when a piece of a blood clot from deep vein thrombosis (DVT) breaks off and travels to an artery in…learn more »
Pulmonary Fibrosis
Pulmonary fibrosis is scarring throughout the lungs. Pulmonary fibrosis can be caused by many conditions including chronic…learn more »
Pulmonary Hypertension
Pulmonary hypertension is an abnormal elevation of the pressure in the pulmonary circulation caused by the constriction of the…learn more »
Rheumatoid Arthritis
Rheumatoid arthritis is an autoimmune disease that causes chronic inflammation of the joints, the tissue around the joints, as…learn more »
Sarcoidosis
Sarcoidosis, a disease resulting from chronic inflammation, causes small lumps (granulomas) to develop in a great range of body…learn more »
SARS
Severe acute respiratory syndrome (SARS) is a respiratory disease caused by the coronavirus SARS-CoV. Symptoms include fever and…learn more »
Scoliosis
Scoliosis causes an abnormal curvature of the spine. When the cause of scoliosis is unknown the disorder is described based on…learn more »
Smoking (How to Quit Smoking)
Smoking is an addiction. More than 430,000 deaths occur each year in the U.S. from smoking related illnesses. Secondhand smoke or…learn more »
Stroke
A stroke results from impaired oxygen delivery to brain cells via the bloodstream. A stroke is also referred to as a CVA, or…learn more »
Swine Flu
Novel H1N1 influenza A virus infection (swine flu) is an infection that generally is transferred from an infected pig to a human,…learn more »
Thymoma
Thymoma is an uncommon cancer of the thymus gland. Many thymomas are asymptomatic. When symptoms do occur, they include chest…learn more »
Tuberculosis
Tuberculosis (TB) is an infectious disease caused by Mycobacterium tuberculosis bacteria. Symptoms include weakness, fever,…learn more »
Vasculitis
Vasculitis is a general term for a group of uncommon diseases which feature inflammation of the blood vessels. Each form of…learn more »
Williams Syndrome
Williams syndrome is a developmental disorder that affects many parts of the body. Features may include intellectual disability,…learn more »
Other Causes of Shortness of Breath
Chest Wall & Chest Muscle Diseases
Numerous diseases of muscles and the nervous system can lead to shortness of breath by weakening the body’s capacity for opening the lungs up for respiration. Examples of muscle diseases include muscular dystrophy. Nervous system diseases, such as paralysis, can lead to shortness of breath.
Heart Diseases
Many conditions that affect the heart and its capacity to move blood through the lungs can lead to shortness of breath. These conditions include valve diseases of the heart and others.
Lung Tissue Diseases
There are a vast number of lung tissue diseases ranging from common and temporary, to uncommon and chronic. These include infections (pneumonia, acute bronchitis from bacteria, viruses, etc.), cancers that have spread to the lung, chemical and radiation toxicity to the lung (including radiation therapy), occupational toxicities (such as minerals from mines), hemosiderosis, fungus infections (coccidiomycosis, blastomycosis, aspergillosis), allergic reactions, drug toxicity, connective tissue diseases, and many others.
Obstructions to Airflow
Obstruction to airflow can occur anywhere along the passageway that the air we breathe takes from entering the nose and mouth, through the trachea (windpipe in our throats), through the bronchial tubes and tiny airways in the lungs. Sudden blockage of airways is a medical emergency and can be caused by inhaling objects, food particles or fluids.
Other Causes
Acidosis, such as from salicylate (aspirin) poisoning. Low oxygen environment, such as at high altitudes.
Tuberculosis
Tuberculosis Overview
Tuberculosis (TB) describes an infectious disease that has plagued humans since the Neolithic times. Two organisms causetuberculosis — Mycobacteriumtuberculosis and Mycobacterium bovis.
Physicians in ancient Greece called this illness “phthisis” to reflect its wasting character. During the 17th and 18th centuries, TB caused up to 25% of all deaths in Europe. In more recent times, tuberculosis has been called “consumption.”
- Robert Koch isolated the tubercle bacillus in 1882 and established TB as an infectious disease.
- In the 19th century, patients were isolated in sanatoria and given treatments such as injecting air into the chest cavity. Attempts were made to decrease lung size by surgery called thoracoplasty.
- During the first half of the 20th century, no effective treatment was available.
- Streptomycin, the first antibiotic to fight TB, was introduced in 1946, and isoniazid (Laniazid, Nydrazid), originally an antidepressant medication, became available in 1952.
- M. tuberculosis is a rod-shaped, slow-growing bacterium.
- M. tuberculosis‘ cell wall has high acid content, which makes it hydrophobic, resistant to oral fluids.
- The cell wall of Mycobacteria absorbs a certain dye used in the preparation of slides for examination under the microscope and maintains this red color despite attempts at decolorization, hence the name acid-fast bacilli.
- M. tuberculosis continues to kill millions of people yearly worldwide. In 1995, 3 million people died from TB.
- More than 90% of TB cases occur in developing nations that have poor hygiene and health-care resources and high numbers of people infected with HIV.
- In the United States, the incidence of TB began to decline around 1900 because of improved living conditions.
- TB cases have increased since 1985, most likely due to the increase in HIV infection.
- Tuberculosis continues to be a major health problem worldwide. In 2008, the World Health Organization (WHO) estimated that one-third of the global population was infected with TB bacteria.
- 8.8 million new cases of TB developed.
- 1.6 million people died of this disease in 2005.
- Each person with untreated active TB will infect on average 10-15 people each year.
- A new infection occurs every second.
- In 2009, the TB rate in the United States was 3.8 cases per 100,000 population, a slight decrease from the prior year. Four states (California, Florida, New York, and Texas) accounted for the majority of all new TB cases (50.3%).
- With the spread of AIDS, tuberculosis continues to lay waste to large populations. The emergence of drug-resistant organisms threatens to make this disease once again incurable.
- In 1993, the WHO declared tuberculosis a global emergency.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Tuberculosis Causes
All cases of TB are passed from person to person via droplets. When someone with TB infection coughs, sneezes, or talks, tiny droplets of saliva or mucus are expelled into the air, which can be inhaled by another person.
- Once infectious particles reach the alveoli (small saclike structures in the air spaces in the lungs), another cell, called the macrophage, engulfs the TB bacteria.
- Then the bacteria are transmitted to the lymphatic system and bloodstream and spread to other organs occurs.
- The bacteria further multiply in organs that have high oxygen pressures, such as the upper lobes of the lungs, the kidneys, bone marrow, andmeninges — the membrane-like coverings of the brain and spinal cord.
- When the bacteria cause clinically detectable disease, you have TB.
- People who have inhaled the TB bacteria, but in whom the disease is controlled, are referred to as infected. Their immune system has walled off the organism in an inflammatory focus known as a granuloma. They have no symptoms, frequently have a positive skin test for TB, yet cannot transmit the disease to others. This is referred to as latent tuberculosis infection or LTBI.
- Risk factors for TB include the following:
- HIV infection,
- low socioeconomic status,
- alcoholism,
- homelessness,
- crowded living conditions,
- diseases that weaken the immune system,
- migration from a country with a high number of cases,
- and health-care workers.
Tuberculosis Symptoms and Signs
You may not notice any symptoms of illness until the disease is quite advanced. Even then the symptoms — loss of weight, loss of energy, poor appetite, fever, a productive cough, and night sweats — might easily be blamed on another disease.
- Only about 10% of people infected with M. tuberculosis ever develop tuberculosis disease. Many of those who suffer TB do so in the first few years following infection, but the bacillus may lie dormant in the body for decades.
- Although most initial infections have no symptoms and people overcome them, they may develop fever, dry cough, and abnormalities that may be seen on a chest X-ray.
- This is called primary pulmonary tuberculosis.
- Pulmonary tuberculosis frequently goes away by itself, but in 50%-60% of cases, the disease can return.
- Tuberculous pleuritis may occur in 10% of people who have the lung disease from tuberculosis.
- The pleural disease occurs from the rupture of a diseased area into thepleural space, the space between the lung and the lining of the abdominal cavity.
- These people have a nonproductive cough, chest pain, and fever. The disease may go away and then come back at a later date.
- In a minority of people with weakened immune systems, TB bacteria may spread through their blood to various parts of the body.
- This is called miliary tuberculosis and produces fever, weakness, loss of appetite, and weight loss.
- Cough and difficulty breathing are less common.
- Generally, return of dormant tuberculosis infection occurs in the upper lungs. Symptoms include
- common cough with a progressive increase in production of mucus and
- coughing up blood.
- Other symptoms include the following:
- fever,
- loss of appetite,
- weight loss, and
- night sweats.
- About 15% of people may develop tuberculosis in an organ other than their lungs. About 25% of these people usually had known TB with inadequate treatment. The most common sites include the following:
- lymph nodes,
- genitourinary tract,
- bone and joint sites,
- meninges, and
- the lining covering the outside of the gastrointestinal tract.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Tuberculosis Symptoms and Signs
You may not notice any symptoms of illness until the disease is quite advanced. Even then the symptoms — loss of weight, loss of energy, poor appetite, fever, a productive cough, and night sweats — might easily be blamed on another disease.
- Only about 10% of people infected with M. tuberculosis ever develop tuberculosis disease. Many of those who suffer TB do so in the first few years following infection, but the bacillus may lie dormant in the body for decades.
- Although most initial infections have no symptoms and people overcome them, they may develop fever, dry cough, and abnormalities that may be seen on a chest X-ray.
- This is called primary pulmonary tuberculosis.
- Pulmonary tuberculosis frequently goes away by itself, but in 50%-60% of cases, the disease can return.
- Tuberculous pleuritis may occur in 10% of people who have the lung disease from tuberculosis.
- The pleural disease occurs from the rupture of a diseased area into thepleural space, the space between the lung and the lining of the abdominal cavity.
- These people have a nonproductive cough, chest pain, and fever. The disease may go away and then come back at a later date.
- In a minority of people with weakened immune systems, TB bacteria may spread through their blood to various parts of the body.
- This is called miliary tuberculosis and produces fever, weakness, loss of appetite, and weight loss.
- Cough and difficulty breathing are less common.
- Generally, return of dormant tuberculosis infection occurs in the upper lungs. Symptoms include
- common cough with a progressive increase in production of mucus and
- coughing up blood.
- Other symptoms include the following:
- fever,
- loss of appetite,
- weight loss, and
- night sweats.
- About 15% of people may develop tuberculosis in an organ other than their lungs. About 25% of these people usually had known TB with inadequate treatment. The most common sites include the following:
- lymph nodes,
- genitourinary tract,
- bone and joint sites,
- meninges, and
- the lining covering the outside of the gastrointestinal tract.
When to Seek Medical Care
If someone among your family or close associates is found to be sick with active TB, you should see your doctor and be tested for tuberculosis.
- The dangerous contact time is before treatment. However, once treatment with drugs starts, the sick person is noncontagious within a few weeks.
- If you develop any side effects from medications prescribed to treattuberculosis — such as itching, change in color of skin, tiredness, visual changes, or excessive fatigue — call your doctor immediately.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Tuberculosis Diagnosis
The doctor will complete the following tests to diagnose tuberculosis. You may not be hospitalized for either the initial tests or the beginning of treatment.
- Chest X-ray: The most common diagnostic test that leads to the suspicion of infection is a chest X-ray.
- In primary TB, an X-ray will show an abnormality in the mid and lower lung fields, and lymph nodes may be enlarged.
- Reactivated TB bacteria usuallyinfiltrate the upper lobes of the lungs.
- Miliary tuberculosis exhibits diffuse nodules at different locations in the body.
- The Mantoux skin test also known as a tuberculin skin test (TST or PPD test): This test helps identify people infected with M. tuberculosis but who have no symptoms. A doctor must read the test.
- The doctor will inject 5 units of purified protein derivative (PPD) into your skin. If a raised bump of more than 5 mm (0.2 in) appears at the site 48 hours later, the test may be positive.
- This test can often indicate disease when there is none (false positive). Also, it can show no disease when you may in fact have TB (false negative).
- QuantiFERON-TB Gold test: This is a blood test that is an aid in the diagnosis of TB. This test can help detect active and latent tuberculosis. The body responds to the presence of the tuberculosis bacteria. By special techniques, the patient’s blood is incubated with proteins from TB bacteria. If the bacteria is in the patient, the immune cells in the blood sample respond to these proteins with the production of a substance called interferon-gamma (IFN-gamma). This substance is detected by the test. If someone had a prior BCGvaccination (a vaccine against TB given in some countries but not the U.S.) and a positive skin test due to this, the QuantiFERON-TB Gold test will not detect any IFN-gamma.
- Sputum testing: Sputum testing for acid-fast bacilli is the only test that confirms a TB diagnosis. If sputum (the mucus you cough up) is available, or can be induced, a lab test may give a positive result in up to 30% of people with active disease.
- Sputum or other bodily secretions such as from your stomach or lung fluid can be cultured for growth of mycobacteria to confirm the diagnosis.
- It may take one to three weeks to detect growth in a culture, but eight to 12 weeks to be certain of the diagnosis.
Tuberculosis Treatment
Medical Treatment
Today, doctors treat most people with TB outside the hospital. Gone are the days of going to the mountains for long periods of bed rest. Doctors seldom use surgery.
- Doctors will prescribe several special medications that you must take for six to nine months.
- Standard therapy for active TB consists of a six-month regimen:
- two months with Rifater (isoniazid,rifampin, and pyrazinamide);
- four months of isoniazid and rifampin(Rifamate, Rimactane);
- and ethambutol (Myambutol) or streptomycin added until your drug sensitivity is known (from the results of bacterial cultures).
- Treatment takes that long because the disease organisms grow very slowly and, unfortunately, also die very slowly. (Mycobacterium tuberculosis is a very slow-growing organism and may take up to six weeks to grow in a culture media.)
- Doctors use multiple drugs to reduce the likelihood of resistant organisms emerging.
- Often the drugs will be changed or chosen based on the laboratory results.
- If doctors doubt that you are taking your medicine, they may have you come to the office for doses. Prescribing doses twice a week helps assure compliance.
- The most common cause of treatment failure is people’s failure to comply with the medical regimen. This may lead to the emergence of drug-resistant organisms. You must take your medications as directed, even if you are feeling better.
Another important aspect of tuberculosis treatment is public health. This is an area of community health for which mandated treatment can occur. In some cases, the local health department will supervise administration of the medication for the entire course of therapy.
- Doctors likely will contact or trace your relatives and friends.
- Your relatives and friends may need to undergo appropriate skin tests and chest X-rays.
Tuberculosis Prevention
- Treatment to prevent TB in a single person aims to kill walled-up germs that are doing no damage right now but could break out years from now and become active.
- If you should be treated to prevent sickness, your doctor usually prescribes a daily dose of isoniazid (also called INH), an inexpensive TB medicine.
- You will take INH for up to a year, with periodic checkups to make sure you are taking it as prescribed and that it is not causing undesirable side effects. In some cases, intolerance or allergic response can mandate an alternative treatment that may go on for 18 months.
- Treatment also can stop the spread of TB in large populations.
- The tuberculosis vaccine, known as bacille Calmette-Guérin (BCG) may prevent the spread of tuberculosis andtuberculous meningitis in children, but the vaccine does not necessarily protect against pulmonary tuberculosis. It can, however, result in a false-positive tuberculin skin test that in many cases can be differentiated by the use of the QuantiFERON-TB Gold test mentioned above.
- Health officials generally recommend the vaccine in countries or communities where the rate of new infection is greater than 1% per year. BCG is not generally recommended for use in the United States because there is a very low risk of tuberculosis infection. It may be considered for very select patients at high risk for tuberculosis and who meet special criteria.
When to Seek Medical Care
If someone among your family or close associates is found to be sick with active TB, you should see your doctor and be tested for tuberculosis.
- The dangerous contact time is before treatment. However, once treatment with drugs starts, the sick person is noncontagious within a few weeks.
- If you develop any side effects from medications prescribed to treattuberculosis — such as itching, change in color of skin, tiredness, visual changes, or excessive fatigue — call your doctor immediately
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Tuberculosis Diagnosis
The doctor will complete the following tests to diagnose tuberculosis. You may not be hospitalized for either the initial tests or the beginning of treatment.
Chest X-ray: The most common diagnostic test that leads to the suspicion of infection is a chest X-ray.
In primary TB, an X-ray will show an abnormality in the mid and lower lung fields, and lymph nodes may be enlarged.
Reactivated TB bacteria usually infiltrate the upper lobes of the lungs.
Miliary tuberculosis exhibits diffuse nodules at different locations in the body.
The Mantoux skin test also known as a tuberculin skin test (TST or PPD test): This test helps identify people infected with M. tuberculosis but who have no symptoms. A doctor must read the test.
The doctor will inject 5 units of purified protein derivative (PPD) into your skin. If a raised bump of more than 5 mm (0.2 in) appears at the site 48 hours later, the test may be positive.
This test can often indicate disease when there is none (false positive). Also, it can show no disease when you may in fact have TB (false negative).
QuantiFERON-TB Gold test: This is a blood test that is an aid in the diagnosis of TB. This test can help detect active and latent tuberculosis. The body responds to the presence of the tuberculosis bacteria. By special techniques, the patient’s blood is incubated with proteins from TB bacteria. If the bacteria is in the patient, the immune cells in the blood sample respond to these proteins with the production of a substance called interferon-gamma (IFN-gamma). This substance is detected by the test. If someone had a prior BCG vaccination (a vaccine against TB given in some countries but not the U.S.) and a positive skin test due to this, the QuantiFERON-TB Gold test will not detect any IFN-gamma.
Sputum testing: Sputum testing for acid-fast bacilli is the only test that confirms a TB diagnosis. If sputum (the mucus you cough up) is available, or can be induced, a lab test may give a positive result in up to 30% of people with active disease.
Sputum or other bodily secretions such as from your stomach or lung fluid can be cultured for growth of mycobacteria to confirm the diagnosis.
It may take one to three weeks to detect growth in a culture, but eight to 12 weeks to be certain of the diagnosis.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Tuberculosis Treatment
Medical Treatment
Today, doctors treat most people with TB outside the hospital. Gone are the days of going to the mountains for long periods of bed rest. Doctors seldom use surgery.
- Doctors will prescribe several special medications that you must take for six to nine months.
- Standard therapy for active TB consists of a six-month regimen:
- two months with Rifater (isoniazid,rifampin, and pyrazinamide);
- four months of isoniazid and rifampin(Rifamate, Rimactane);
- and ethambutol (Myambutol) or streptomycin added until your drug sensitivity is known (from the results of bacterial cultures).
- Treatment takes that long because the disease organisms grow very slowly and, unfortunately, also die very slowly. (Mycobacterium tuberculosis is a very slow-growing organism and may take up to six weeks to grow in a culture media.)
- Doctors use multiple drugs to reduce the likelihood of resistant organisms emerging.
- Often the drugs will be changed or chosen based on the laboratory results.
- If doctors doubt that you are taking your medicine, they may have you come to the office for doses. Prescribing doses twice a week helps assure compliance.
- The most common cause of treatment failure is people’s failure to comply with the medical regimen. This may lead to the emergence of drug-resistant organisms. You must take your medications as directed, even if you are feeling better.
Another important aspect of tuberculosis treatment is public health. This is an area of community health for which mandated treatment can occur. In some cases, the local health department will supervise administration of the medication for the entire course of therapy.
- Doctors likely will contact or trace your relatives and friends.
- Your relatives and friends may need to undergo appropriate skin tests and chest X-rays.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Tuberculosis Prevention
- Treatment to prevent TB in a single person aims to kill walled-up germs that are doing no damage right now but could break out years from now and become active.
- If you should be treated to prevent sickness, your doctor usually prescribes a daily dose of isoniazid (also called INH), an inexpensive TB medicine.
- You will take INH for up to a year, with periodic checkups to make sure you are taking it as prescribed and that it is not causing undesirable side effects. In some cases, intolerance or allergic response can mandate an alternative treatment that may go on for 18 months.
- Treatment also can stop the spread of TB in large populations.
- The tuberculosis vaccine, known as bacille Calmette-Guérin (BCG) may prevent the spread of tuberculosis andtuberculous meningitis in children, but the vaccine does not necessarily protect against pulmonary tuberculosis. It can, however, result in a false-positive tuberculin skin test that in many cases can be differentiated by the use of the QuantiFERON-TB Gold test mentioned above.
- Health officials generally recommend the vaccine in countries or communities where the rate of new infection is greater than 1% per year. BCG is not generally recommended for use in the United States because there is a very low risk of tuberculosis infection. It may be considered for very select patients at high risk for tuberculosis and who meet special criteria.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Tuberculosis Prognosis
You can expect to keep your job, to stay with your family, and to lead a normal life if you contract tuberculosis. However, you must take your medicine regularly to be sure of a cure and to prevent others from being infected.
- With treatment, your chance of full recovery is very good.
- Without treatment, the disease will progress and lead to disability and death.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Drug-Resistant TB
- Most strains of the TB bacteria require at least two drugs for treatment to prevent resistance.
- Resistance is caused by inconsistent or partial treatment. In some instances, patients are prescribed inadequate therapy or enough drug is not available. Usually this occurs because patients tend to stop taking their medication once they start to feel better. Observed therapy is often required and monitored by health departments in the U.S.
- Multidrug-resistant TB (MDR-TB) is caused by a bacteria that is resistant to at least isoniazid and rifampicin. Prolonged alternative therapy is required to treat this form of TB, often for up to two years.
- Extensively drug-resistant TB (XDR-TB) is rare but extremely problematic. This form of TB is very difficult to treat and often requires prolonged isolation of the individual to protect the community at large. If TB is treated properly and consistently, these resistant forms are much less likely to spread.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Tuberculosis Pictures
Media file 1: Tuberculous cavities in the right upper lobe are shown here.
http://images.emedicinehealth.com/images/4453/4453-4482-17621-21200.bmp
Media type: Photo
Media file 2: Tubercle bacilli in the lung tissue
http://images.emedicinehealth.com/images/4453/4453-4482-17621-21202.bmp
Media type: Photo
Media file 3: Kinyoun stain shows presence of mycobacteria in sputum sample.
http://images.emedicinehealth.com/images/4453/4453-4482-17621-21203.jpg
Media type: Photo
Media file 4: A 48-year-old foreign-born woman developed cough, sputum production, and blood-tinged sputum. Sputum staining showed tubercle bacilli. Her chest X-ray showed a cavity-like lesion in right upper lobe of her lung.
http://images.emedicinehealth.com/images/4453/4453-4482-17621-21204.jpg
Media type: X-ray
Media file 5: Doctors treated the same woman with three medications for TB. One month later, she showed significant improvement, as seen by this repeat chest X-ray.
http://images.emedicinehealth.com/images/4453/4453-4482-17621-21207.jpg
Media type: X-ray
Media file 6: Mantoux test is done to identify patients who are infected with the tuberculous infection; they may or may not have the disease. This test is also used as a public-health measure to detect infection in patient’s family and friends.
http://images.emedicinehealth.com/images/4453/4453-4482-17621-21208.jpg
Media type: Photo
Media file 7: Erythema nodosum is skin condition sometimes seen in tuberculosis when there are spots on the shins, which are painful and red and disappear within a few weeks.
http://images.emedicinehealth.com/images/4453/4453-4482-17621-21209.jpg
Media type: Photo
Media file 8: Prior to the 1950s, medications were not available for treating tuberculosis. One of the treatments was placing paraffin wax sheets in the chest cavity to stop the infection. This patient had this treatment performed on her. This is of pure historical interest because this treatment is no longer performed.
http://images.emedicinehealth.com/images/4453/4453-4482-17621-21211.jpg
Media type: Photo
Synonyms and Keywords
tuberculosis, TB, consumption, primary pulmonary tuberculosis, bacille Calmette-Guerin, BCG, tuberculosis pleuritis, miliary tuberculosis, Mycobacterium tuberculosis, M. tuberculosis, Mycobacterium bovis, M bovis, tubercle bacillus, acid-fast bacilli, purified protein derivative, PPD, MDR-TB, XDR-TB, drug resistant tuberculosis
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Authors and Editors
Author: George Schiffman, MD, FCCP
Editor: Melissa Conrad Stöppler, MD, Chief Medical Editor, eMedicineHealth.com
Previous contributing authors and editors:
Author: Sat Sharma, MD, FRCPC, FCCP, ProgramDirector, Associate Professor, Department of Internal Medicine, Divisions of Pulmonary and Critical Care Medicine, University of Manitoba; Site Coordinator of Respiratory Medicine, St Boniface General Hospital.
Coauthor(s): Deborah M Sciberras, RN, CAE, Respiratory Nurse Clinician, St Boniface General Hospital of Winnipeg, Canada.
Editors: Mitchell J Goldman, DO, FAAP, FAAEM, Director of Pediatric Emergency Medicine, Emergency Medicine, St Vincent Emergency Physicians, Inc; Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine; James Ungar, MD, Medical Director, Chair Department of Emergency Medicine Santa Rosa Memorial Hospital.
REFERENCES:
U.S. Centers for Disease Control and Prevention. “Decrease in Reported Tuberculosis Cases — United States, 2009.” MMWR 59.10 (2010): 289-294.
U.S. Centers for Disease Control and Prevention. “Updated Guidelines for Using Interferon Gamma Release Assays to Detect Mycobacterium tuberculosis Infection — United States, 2010.” MMWR 59 (No. RR-5) June 25, 2010: 1-25.
Last Editorial Review: 8/25/2010
Dyspnea
Definition of Dyspnea
Dyspnea: Difficult or labored breathing; shortness of breath. Dyspnea is a sign of serious disease of the airway, lungs, or heart. The onset of dyspnea should not be ignored; it is reason to seek medical attention.
Allergy
Definition of Allergy
Allergy: A misguided reaction to foreign substances by the immune system, the body system of defense against foreign invaders, particularly pathogens(the agents of infection). The allergic reaction is misguided in that these foreign substances are usually harmless. The substances that trigger allergy are called allergen. Examples include pollens, dust mite, molds,danders, and certain foods. People prone to allergies are said to be allergic or atopic.
Although allergies can develop at any age, the risk of developing allergies is genetic. It is related to ones family history of allergy. If neither parent is allergic, the chance for allergies is about 15%. If one parent is allergic, the risk increases to 30% and if both are allergic, the risk is greater than 60%.
Allergens cause the production of immunoglobulin E (IgE), an antibody that all of us have in small amounts. Allergic persons, however, produce IgE in abnormally quantities. Normally, this antibody is important in protecting us from parasites, but not from other allergens. During the sensitization period in allergy, IgE is overproduced. It coats certain potentially explosive cells that contain chemicals including histamine. These chemicals, in turn, cause inflammation and the typical allergic symptoms. This is how the immune system becomes misguided and primed to cause an allergic reaction when stimulated by an allergen.
The most common allergic conditions include hay fever (allergic rhinitis),asthma, allergic eyes (allergic conjunctivitis), allergic eczema, hives(urticaria), and allergic shock (also called anaphylaxis and anaphylactic shock). For a thumbnail sketch of each of these conditions:
Hay fever (allergic rhinitis) is the most common of the allergic diseases and refers to seasonal nasal symptoms that are due to pollens. Year round or perennial allergic rhinitis is usually due to indoor allergens, such as dust mites or molds. Symptoms result from the inflammation of the tissues that line the inside of the nose (mucus lining or membranes) after allergens are inhaled. Adjacent areas, such as the ears, sinuses, and throat can also be involved. The most common symptoms include:
- Runny nose
- Stuffy nose
- Sneezing
- Nasal itching (rubbing)
- Itchy ears and throat
- Post nasal drip (throat clearing)
Asthma is a breathing problem that results from the inflammation and spasm of the lung’s air passages (bronchial tubes). The inflammation causes a narrowing of the air passages, which limits the flow of air into and out of the lungs. Asthma is most often, but not always, related to allergies. Common symptoms include:
- Shortness of breath
- Wheezing
- Coughing
- Chest tightness
Allergic eyes (allergic conjunctivitis) is inflammation of the tissue layers (membranes) that cover the surface of the eyeball and the undersurface of the eyelid. The inflammation occurs a result of an allergic reaction and features:
- Redness under the lids and of the eye overall
- Watery, itchy eyes
- Swelling of the membranes
Allergic eczema is an allergic rash that is usually not caused by skin contact with an allergen and features the following symptoms:
- Itching, redness, and or dryness of the skin
- Rash on the face, especially children
- Rash around the eyes, in the elbow creases, and behind the knees, especially in adults
Hives (urticaria) are skin reactions that appear as itchy swellings and can occur on any part of the body. Hives can be caused by an allergic reaction, such as to a food or medication, but they also may occur in non-allergic people. Typical hive symptoms are:
- Raised red welts
- Intense itching
Allergic shock (anaphylaxis or anaphylactic shock) is a life-threatening reaction that can affect a number of organs at the same time. It typically occurs when the allergen is eaten (for example, foods) or injected (for example, a bee sting). Allergic shock is caused by dilated and “leaky” blood vessels, which result in a drop in blood pressure. Some or all of the following symptoms may occur:
- Hives or reddish discoloration of the skin
- Nasal congestion
- Swelling of the throat
- Stomach pain, nausea, vomiting
- Shortness of breath, wheezing
- Low blood pressure or shock
Last Editorial Review: 4/27/2011 5:27:15 PM
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Allergy facts
- Allergy involves an exaggerated response of the immune system.
- The immune system is the body’s organized defense mechanism against foreign invaders, particularly infections.
- Allergens are substances that are foreign to the body and can cause an allergic reaction.
- IgE is the allergy antibody.
- Allergies can develop at any age.
- Your risk of developing allergies is related to your parents’ allergy history.
Introduction
In this review you will learn how allergy relates to the immune system. You will begin understanding how and why certain people become allergic. The most common allergic diseases are discussed briefly in this article.
What does an allergy mean?
An allergy refers to an exaggerated reaction by our immune system in response to bodily contact with certain foreign substances. It is exaggerated because these foreign substances are usually seen by the body as harmless and no response occurs in non- allergic people. Allergic people’s bodies recognize the foreign substance and one part of the immune system is turned on. Allergy-producing substances are called “allergens.” Examples of allergens include pollens, dust mite, molds, danders, and foods. To understand the language of allergy it is important to remember that allergens are substances that are foreign to the body and can cause an allergic reaction in certain people.
When an allergen comes in contact with the body, it causes the immune system to develop an allergic reaction in persons who are allergic to it. When you inappropriately react to allergens that are normally harmless to other people, you are having an allergic reaction and can be referred to as allergic or atopic. Therefore, people who are prone to allergies are said to be allergic or “atopic.”
Austrian pediatrician Clemens Pirquet (1874-1929) first used the term allergy. He referred to both immunity that was beneficial and to the harmful hypersensitivity as “allergy.” The word allergy is derived from the Greek words “allos,” meaning different or changed and “ergos,” meaning work or action. Allergy roughly refers to an “altered reaction.” The word allergy was first used in 1905 to describe the adverse reactions of children who were given repeated shots of horse serum to fight infection. The following year, the term allergy was proposed to explain this unexpected “changed reactivity.”
Allergy Fact
- It is estimated that 50 million North Americans are affected by allergic conditions.
- The cost of allergies in the United States is more than $10 billion dollars yearly.
- Allergic rhinitis (nasal allergies) affects about 35 million Americans, 6 million of whom are children.
- Asthma affects 15 million Americans, 5 million of whom are children.
- The number of cases of asthma has doubled over the last 20 years.
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What causes allergies?
To help answer this question, let’s look at a common household example. A few months after the new cat arrives in the house, dad begins to have itchy eyes and episodes of sneezing. One of the three children develops coughing and wheezing, especially when the cat comes into her bedroom. The mom and the other two children experience no reaction whatsoever to the presence of the cat. How can we explain this?
The immune system is the body’s organized defense mechanism against foreign invaders, particularly infections. Its job is to recognize and react to these foreign substances, which are called antigens. Antigens are substances that are capable of causing the production of antibodies. Antigens may or may not lead to an allergic reaction. Allergens are certain antigens that cause an allergic reaction and the production of IgE.
The aim of the immune system is to mobilize its forces at the site of invasion and destroy the enemy. One of the ways it does this is to create protective proteins called antibodies that are specifically targeted against particular foreign substances. These antibodies, or immunoglobulins (IgG, IgM, IgA, IgD), are protective and help destroy a foreign particle by attaching to its surface, thereby making it easier for other immune cells to destroy it. The allergic person however, develops a specific type of antibody called immunoglobulin E, or IgE, in response to certain normally harmless foreign substances, such as cat dander. To summarize, immunoglobulins are a group of protein molecules that act as antibodies. There are five different types; IgA, IgM, IgG, IgD, and IgE. IgE is the allergy antibody.
(In 1967, the husband and wife team of Kimishige and Teriko Ishizaka detected a previously unrecognized type of immunoglobulin in allergic people. They called it gamma E globulin or IgE.)
In the pet cat example, the dad and the youngest daughter developed IgE antibodies in large amounts that were targeted against the cat allergen, the cat dander. The dad and daughter are now sensitized or prone to develop allergic reactions on subsequent and repeated exposures to cat allergen. Typically, there is a period of “sensitization” ranging from months to years prior to an allergic reaction. Although it might occasionally appear that an allergic reaction has occurred on the first exposure to the allergen, there must have been a prior contact in order for the immune system to be poised to react in this way.
IgE is an antibody that all of us have in small amounts. Allergic persons, however, produce IgE in large quantities. Normally, this antibody is important in protecting us from parasites, but not from cat dander or other allergens. During the sensitization period, cat dander IgE is being overproduced and coats certain potentially explosive cells that contain chemicals. These cells are capable of causing an allergic reaction on subsequent exposures to the dander. This is because the reaction of the cat dander with the dander IgE irritates the cells and leads to the release of various chemicals, including histamine. These chemicals, in turn, cause inflammation and the typical allergic symptoms. This is how the immune system becomes exaggerated and primed to cause an allergic reaction when stimulated by an allergen.
On exposure to cat dander, the mom and the other two children produce other classes of antibodies, none of which cause allergic reactions. In these non-allergic members of the family, the dander particles are eliminated uneventfully by the immune system and the cat has no effect on them.
Figure 1
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Who is at risk and why?
Allergies can develop at any age, possibly even in the womb. They commonly occur in children but may give rise to symptoms for the first time in adulthood. Asthma may persist in adults while nasal allergies tend to decline in old age.
Why, you may ask, are some people “sensitive” to certain allergens while most are not? Why do allergic persons produce more IgE than those who are non-allergic? The major distinguishing factor appears to be heredity. For some time, it has been known that allergic conditions tend to cluster in families. Your own risk of developing allergies is related to your parents’ allergy history. If neither parent is allergic, the chance that you will have allergies is about 15%. If one parent is allergic, your risk increases to 30% and if both are allergic, your risk is greater than 60%.
Although you may inherit the tendency to develop allergies, you may never actually have symptoms. You also do not necessarily inherit the same allergies or the same diseases as your parents. It is unclear what determines which substances will trigger a reaction in an allergic person. Additionally, which diseases might develop or how severe the symptoms might be is unknown.
Another major piece of the allergy puzzle is the environment. It is clear that you must have a genetic tendency and be exposed to an allergen in order to develop an allergy. Additionally, the more intense and repetitive the exposure to an allergen and the earlier in life it occurs, the more likely it is that an allergy will develop.
There are other important influences that may conspire to cause allergic conditions. Some of these include smoking, pollution, infection, and hormones.
What are common allergic conditions, and what are allergy symptoms and signs?
The parts of the body that are prone to react to allergies include the eyes, nose, lungs, skin, and stomach. Although the various allergic diseases may appear different, they all result from an exaggerated immune response to foreign substances in sensitive people. The following brief descriptions will serve as an overview of common allergic disorders.
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Allergic Rhinitis
Allergic rhinitis (“hay fever”) is the most common of the allergic diseases and refers to seasonal nasal symptoms that are due to pollens. Year round or perennial allergic rhinitis is usually due to indoor allergens, such as dust mites, animal dander, or molds. It can also be caused by pollens. Symptoms result from the inflammation of the tissues that line the inside of the nose (mucus lining or membranes) after allergens are inhaled. Adjacent areas, such as the ears, sinuses, and throat can also be involved. The most common symptoms include:
- Runny nose
- Stuffy nose
- Sneezing
- Nasal itching (rubbing)
- Itchy ears and throat
- Post nasal drip (throat clearing)
In 1819, an English physician, John Bostock, first described hay fever by detailing his own seasonal nasal symptoms, which he called “summer catarrh.” The condition was called hay fever because it was thought to be caused by “new hay.”
Asthma
Asthma is a breathing problem that results from the inflammation and spasm of the lung’s air passages (bronchial tubes). The inflammation causes a narrowing of the air passages, which limits the flow of air into and out of the lungs. Asthma is most often, but not always, related to allergies. Common symptoms include:
- Shortness of breath
- Wheezing
- Coughing
- Chest tightness
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Allergic Eyes
Allergic eyes (allergic conjunctivitis) is inflammation of the tissue layers (membranes) that cover the surface of the eyeball and the undersurface of the eyelid. The inflammation occurs as a result of an allergic reaction and may produce the following symptoms:
- Redness under the lids and of the eye overall
- Watery, itchy eyes
- Swelling of the membranes
Allergic Eczema
Allergic eczema (atopic dermatitis) is an allergic rash that is usually not caused by skin contact with an allergen. This condition is commonly associated with allergic rhinitis or asthma and features the following symptoms:
- Itching, redness, and or dryness of the skin
- Rash on the face, especially children
- Rash around the eyes, in the elbow creases, and behind the knees, especially in older children and adults (rash can be on the trunk of the body)
Hives
Hives (urticaria) are skin reactions that appear as itchy swellings and can occur on any part of the body. Hives can be caused by an allergic reaction, such as to a food or medication, but they also may occur in non-allergic people. Typical hive symptoms are:
- Raised red welts
- Intense itching
Allergic Shock
Allergic shock (anaphylaxis or anaphylactic shock) is a life-threatening allergic reaction that can affect a number of organs at the same time. This response typically occurs when the allergen is eaten (for example, foods) or injected (for example, a bee sting). Some or all of the following symptoms may occur:
- Hives or reddish discoloration of the skin
- Nasal congestion
- Swelling of the throat
- Stomach pain, nausea, vomiting
- Shortness of breath, wheezing
- Low blood pressure or shock
Shock refers to the insufficient circulation of blood to the body’s tissues. Shock is most commonly caused by blood loss or an infection. Allergic shock is caused by dilated and “leaky” blood vessels, which result in a drop in blood pressure.
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Where are allergens?
Everywhere…
We have seen that allergens are special types of antigens that cause allergic reactions. The symptoms and diseases that result depend largely on the route of entry and level of exposure to the allergens. The chemical structure of allergens affects the route of exposure. Airborne pollens, for example, will have little effect on the skin. They are easily inhaled and will thus cause more nasal and lung symptoms and limited skin symptoms. When allergens are swallowed or injected they may travel to other parts of the body and provoke symptoms that are remote from their point of entry. For example, allergens in foods may prompt the release of mediators in the skin and cause hives.
We will assume that allergens are defined as: the source of the allergy producing substance (for example, cat), the substance itself (cat dander), or the specific proteins that provoke the immune response (for example, Feld1). Feld1, from the Felis domesticus (the domesticated cat), is the most important chemical allergen in cat dander.
Allergens may be inhaled, ingested (eaten or swallowed), applied to the skin, or injected into the body either as a medication or inadvertently by an insect sting.
In the Air We Breathe
Breathing can be hazardous if you are allergic. Aside from oxygen, the air contains a wide variety of particles; some toxic, some infectious, and some “innocuous,” including allergens. The usual diseases that result from airborne allergens are hay fever, asthma, and conjunctivitis. The following allergens are usually harmless, but can trigger allergic reactions when inhaled by sensitized individuals.
- Pollens: trees, grasses, and/or weeds
- Dust mites
- Animal proteins: dander, skin, and/or urine
- Mold spores
- Insect parts: cockroaches
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In What We Ingest
When foods or medications are ingested, allergens may gain access to the blood stream and become attached to specific IgE on cells in remote sites such as the skin or nasal membranes. The ability of allergens to travel explains how symptoms can occur in areas other than the gastrointestinal tract.Food allergy reactions may begin with tongue or throat swelling and may be followed by tingling, nausea, diarrhea, or stomach cramps. Nasal breathing difficulties or skin reactions may also be seen. The two main allergen groups that are ingested are:
- Foods
- Drugs (when taken by mouth): for example, antibiotics and aspirin
Allergy Assist The most common foods that cause allergic reactions are cow’s milk, fish,shellfish, eggs, peanuts, tree nuts, soy, and wheat.
Touching Our Skin
Allergic contact dermatitis is an inflammation of the skin that is caused by a local allergic reaction. The majority of these localized skin reactions do not involve IgE, but are caused by cells of inflammation. The rash produced is similar to that of a poison ivy rash. It should be noted that when some allergens (for example, latex) come into contact with the skin, they are absorbed by the skin and can also potentially cause reactions throughout the body, not just the skin. For most people, however, the skin is a formidable barrier that can be only locally affected. Examples of allergic contact dermatitis include:
- Latex (causes IgE and non-IgE reactions)
- Plants (poison ivy and oak)
- Dyes
- Chemicals
- Metals (nickel)
- Cosmetics
Allergic contact dermatitis does not involve IgE antibody, but involves cells of the immune system which are programmed to react when triggered by a sensitizing allergen. Touching or rubbing a substance to which you were previously sensitized can trigger a skin rash.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Injected into Our Body
The most severe reactions can occur when allergens are injected into the body and gain direct access to the blood stream. This access carries the risk of a generalized reaction, such as anaphylaxis, which can be life-threatening. The following are commonly injected allergens that can cause severe allergic reactions:
- Insect venom
- Medications
- Vaccines (including allergy shots)
- Hormones (for example, insulin)
REFERENCES:
Fiocchi A, Assa’ad A, Bahna S; Adverse Reactions to Foods Committee; American College of Allergy, Asthma and Immunology. Food allergy and the introduction of solid foods to infants: a consensus document. Adverse Reactions to Foods Committee, American College of Allergy, Asthma and Immunology. Ann Allergy Asthma Immunol. 2006 Jul;97(1):10-20; quiz 21, 77.
Price D, Bond C, Bouchard J, Costa R, Keenan J, Levy ML, Orru M, Ryan D, Walker S, Watson M. International Primary Care Respiratory Group (IPCRG) Guidelines: management of allergic rhinitis. Prim Care Respir J. 2006 Feb;15(1):58-70. Epub 2005 Dec 27.
American College of Allergy, Asthma, & Immunology. Food allergy: a practice parameter. Ann Allergy Asthma Immunol. 2006 Mar;96(3 Suppl 2):S1-68. No abstract available.
Flinterman AE, Pasmans SG, Hoekstra MO, Meijer Y, van Hoffen E, Knol EF, Hefle SL, Bruijnzeel-Koomen CA, Knulst AC. Determination of no-observed-adverse-effect levels and eliciting doses in a representative group of peanut-sensitized children. J Allergy Clin Immunol. 2006 Feb;117(2):448-54.
Scibilia J, Pastorello EA, Zisa G, Ottolenghi A, Bindslev-Jensen C, Pravettoni V, Scovena E, Robino A, Ortolani C. Wheat allergy: a double-blind, placebo-controlled study in adults. J Allergy Clin Immunol. 2006 Feb;117(2):433-9.
Medically Reviewed By: Ellen Reich, MD, Board Certified in Allergy and Immunology, Board Certified in Pediatrics
Last Editorial Review: 4/12/2007
Sinus
Sinus Infection
Sinus Infection Overview
Sinus infection, or sinusitis, is an inflammation of the sinuses and nasal passages. A sinus infection can cause aheadache or pressure in the eyes, nose, cheek area, or on one side of the head. A person with a sinus infection may also have a cough, sore throat, fever, bad breath, and nasal congestion with thick nasal secretions. Sinusitis is categorized as acute (sudden onset) or chronic (long term, the most common type).
Sinusitis is very common. In 2010 there were 29.8 million adults diagnosed with sinusitis in the United States. In 2007 there were 12.5 million visits to health practitioners for chronic sinusitis alone.
Here is an overview of the anatomy of the sinuses (also called paranasal sinuses). The human skull contains four major pairs of hollow air-filled cavities called sinuses. These are connected to the space between the nostrils and the nasal passage (behind your nose). Sinuses help insulate the skull, reduce its weight, and allow the voice to resonate within it. The four major pairs of sinuses are the:
- frontal sinuses (in the forehead),
- maxillary sinuses (behind the cheek bones),
- ethmoid sinuses (between the eyes), and
- sphenoid sinuses (behind the eyes).
The sinuses contain defenses against viruses and bacteria (germs). The sinuses are covered with a mucous layer and cells that contain tiny hairs on their surfaces (cilia). These help trap and propel bacteria and pollutants outward.
Acute sinusitis typically lasts less than eight weeks or occurs no more than three times per year with each episode lasting no longer than 10 days. Medications are generally effective against acute sinusitis. Successful treatment counteracts damage done to the mucous lining of the sinuses and surrounding bone of the skull.
Chronic or recurring sinusitis lasts longer than eight weeks or occurs more than four times per year, with symptoms usually lasting more than 20 days.
Sinus Infection Pictures
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Sinus Infection Causes
Acute sinusitis usually follows a viral infection in the upper respiratory tract, but allergy-causing substances (allergens) or pollutants may also trigger acute sinusitis. Viral infection damages the cells of the sinus lining, leading to inflammation. The lining thickens, obstructing the nasal passage. This passage connects to the sinuses. The obstruction disrupts the process that removes bacteria normally present in the nasal passages, and the bacteria begin to multiply and invade the lining of the sinus. This causes the symptoms of sinus infection. Allergens and pollutants produce a similar effect.
Bacteria that normally cause acute sinusitis are Streptococcus pneumoniae, Haemophilus influenzae, and Moraxella catarrhalis. These microorganisms, along with Staphylococcus aureus and some anaerobes (bacteria that live without oxygen), are involved in chronic sinusitis.
Fungi are also an increasing cause of chronic sinusitis, especially in people with diseases that weaken the immune system, such asAIDS, leukemia, and diabetes.
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Sinus Infection Symptoms
Signs and symptoms of sinus infections depend upon which sinuses are affected and whether the sinus infection is acute or chronic.
Acute sinusitis:
- Ethmoid sinusitis (behind the eyes)
- Nasal congestion with discharge
- Postnasal drip (mucus drips down the throat behind the nose) often accompanied by a sore throat
- Pain or pressure around the inner corner of the eye or down one side of the nose
- Headache in the temple, or surrounding or behind the eye
- Pain or pressure symptoms are worse when coughing, straining, or lying on the back and better when the head is upright
- Fever is common
- Maxillary sinusitis (behind the cheek bones)
- Pain across the cheekbone, under or around the eye, or around the upperteeth
- Pain or pressure on one or both sides of the face
- Tender, red, or swollen cheekbone (maxilla)
- Pain and pressure symptoms are worse with the head upright and bending forward and better when reclining
- Nasal discharge or postnasal drip
- Fever is common
- Frontal sinusitis (behind forehead, one or both sides)
- Severe headaches in the forehead
- Fever is common
- Pain is worse when reclining and better with the head upright
- Nasal discharge or postnasal drip
- Sphenoid sinusitis (behind the eyes)
- Deep headache with pain behind and on top of the head, across the forehead, and behind the eye
- Fever is common
- Pain is worse when lying on the back or bending forward
- Double vision or vision disturbances if pressure extends into the brain
- Nasal discharge or postnasal drip
Chronic sinusitis:
- Ethmoid sinusitis
- Chronic nasal discharge, obstruction, and low-grade discomfort across the bridge of the nose
- Pain is worse in the late morning or when wearing glasses
- Chronic sore throat and bad breath
- Maxillary sinusitis
- Discomfort or pressure below the eye
- Chronic toothache or increased tooth sensitivity
- Pain possibly worse with colds, flu, or allergies
- Increased discomfort throughout the day with increased cough at night
- Frontal sinusitis
- Persistent, low-grade headache in the forehead
- History of trauma or damage to the sinus area
- Chronic postnasal drip
- Sphenoid sinusitis
- Low-grade general headache is common
- Chronic postnasal drip
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When to Seek Medical Care
Call a doctor when experiencing pain or pressure in the upper face accompanied by nasal congestion or discharge, postnasal drip, fever for several days, or ongoing bad breath unrelated to dental problems.
Fever can be a symptom of a sinus infection or a cold. Simple nasal congestion with a low-grade fever and a runny nose probably indicates a cold and may not call for medications orantibiotics and may be contagious. Those also experiencing facial pain, headaches, and fever for several days may have a sinus infection.
If left undiagnosed and untreated complications of sinusitis can occur that may lead to severe medical problems and possibly death. If you have the following symptoms, you may have a medical emergency and should seek immediate evaluation in a hospital’s emergency department.
- Headache, fever, and soft tissue swelling over the frontal sinus may indicate an infection of the frontal bone, called Pott’s puffy tumor or osteomyelitis. Usually, this complication is limited to children.
- Ethmoid sinusitis can cause infection of the eye socket. The eyelid may swell and become droopy. Vision changes are rare but are signs of serious complications. Fever and severe illness are usually present. A person with this infection may lose the ability to move the eye, and permanent blindness may result. Symptoms of sinusitis associated with pain when moving the eye or swelling around the eye are an emergency and should be evaluated immediately.
- Ethmoid or frontal sinusitis can cause the formation of a blood clot in the sinus area around the front and top of the face. Symptoms may be similar to those of eye socket infection with the addition of a dilated pupil (the pupil is larger than usual). This condition usually affects both sides of the face.
- If a person experiences personality changes, headache, neck stiffness, high fever, altered consciousness, visual problems, seizures, or rash on the body, infection may have spread to the brain or the lining tissues of the brain (meningitis). This is a severe illness and a medical emergency. Coma and death may follow.
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Sinus Infection Diagnosis
The diagnosis of a sinus infection is made based on a medical history assessment and a physical examination. Adequately distinguishing sinusitis from a simple upper respiratory infection or a common cold is important.
Sinusitis caused by bacteria usually requires antibiotics for treatment. Sinusitis can also be caused by viruses (meaning antibiotics would not help). Upper respiratory infections and colds are viral illnesses. Over-treating viral infections with antibiotics can be dangerous and can cause antibiotic resistance to occur.
CT scan: In most cases, diagnosing acute sinusitis requires no tests. When testing is needed a CT scan can clearly depict all of the paranasal sinuses, the nasal passages, and the surrounding structures. A CT scan may indicate a sinus infection if any of these conditions is present:
- Air-fluid levels in one or more sinuses
- Total blockage in one or more sinuses
- Thickening of the inner lining (mucosa) of the sinuses
- Mucosal thickening can occur in people without symptoms of sinusitis. CT scan findings must be correlated with a person’s symptoms and physical examination findings to diagnose a sinus infection.
Ultrasound: Another noninvasive diagnostic tool is ultrasound. The procedure is fast, reliable, and less expensive than a CT scan although the results are not as detailed. Ultrasound has not been widely accepted for diagnosis of sinus infection by the medical community, especially among ear, nose, and throat physicians (ENTs, also known as otorhinolaryngologists). This is partly because a CT scan offers the ENT physician a more detailed image of the anatomy of the sinuses, which helps plan possible surgery.
If symptoms persist despite adequate therapy, a referral to an ENT physician may be made.
- The ENT physician can directly visualize the nasal passages and the connection to the sinuses with a nasopharyngoscope, or sino-nasal endoscope. This is a fiberoptic, flexible or rigid tube that is inserted through the nose and enables the doctor to view the passageways and see if the sinuses are open and draining correctly. Anatomical causes of breathing difficulties may also be found, such as a deviated nasal septum, nasal polyps, and enlarged adenoid and tonsils.
- An ENT specialist may also drain the affected sinus to test for organisms. This is a more invasive test. During this procedure, a doctor inserts a needle into the sinus through skin (or gum) and bone in an attempt to withdraw fluid, which can be sent to the lab for culture. Any present bacteria can be identified, often in less than two days. Antibiotics may be given for treatment. If necessary, discomfort is alleviated by local anesthesia. The draining procedure is seldom used, because the CT scan may suffice for the diagnosis of sinusitis, and standard antibiotics are usually effective even when the exact bacterial cause is not known.
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Sinus Infection Treatment
Sinus Infection Home Remedies
Home care can help open the sinuses and alleviate their dryness.
Promote drainage:
- Drink plenty of water and hydrating beverages such as hot tea.
- Inhale steam two to four times per day by leaning over a bowl of hot water (not while the water is on the stove) or using a steam vaporizer. Inhale the steam for about 10 minutes. Taking a hot, steamy shower may also work. Mentholated preparations, such as Vicks Vapo-Rub, can be added to the water or vaporizer to aid in opening the passageways.
Thin the mucus: Expectorants are drugs that help expel mucus from the lungs and respiratory passages. They help thin mucous secretions, enhancing drainage from the sinuses. The most common is guaifenesin(contained in Robitussin and Mucinex). Over-the-counter (OTC) sinus medications can also combine decongestants and cough suppressants to reduce symptoms and eliminate the need for the use of many prescription medications. Read label ingredients to find the right combination of ingredients or ask the pharmacist.
Relieve pain: Pain medication such asibuprofen (Motrin and Advil), aspirin, andnaproxen (Aleve) can reduce pain and inflammation. These medications help to open the airways by reducing swelling. Acetaminophen (Tylenol) can be used for pain and fever but does not help with the inflammation.
Nasal saline irrigation: There are several methods of nasal irrigation, and a popular remedy is the Neti-pot – a ceramic pot that looks like a cross between a small teapot and Aladdin’s magic lamp.
- Some ENT physicians recommend nasal irrigation with a Neti-pot to help clear crusting in the nasal passages. Many people with chronic sinus symptoms use the Neti-pot to alleviate congestion, facial pain and pressure, and reduce the need for antibiotics and nasal sprays.
- Before using nasal saline irrigation, discuss it with your physician.
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Sinus Infection Medical Treatment
The main goals in treating a sinus infection or sinusitis involve reducing the swelling or inflammation in the nasal passages and sinuses, curing the infection, promoting drainage from the sinuses, and maintaining open sinuses.
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Sinus Surgery
Some people experience chronic sinusitis despite adequate therapy with antibiotics and drugs for relief of symptoms. Those that have a CT scan indicative of sinus infection as well as those with any complications of sinusitis may benefit from sinus surgery.
- The surgery is performed endoscopically using a fiberoptic nasopharyngoscope.
- The goal is to remove obstructive mucosal tissue, open the sinus-nasal passageway, and allow drainage of the sinuses.
- During the surgery, nasal polyps can also be removed, and a crooked nasal septum can be straightened, leading to improved airflow.
- Long-term nasal steroids and periodic antibiotics may still be necessary.
A continuing sinus infection may need further investigation. A culture obtained during a routine office visit or during endoscopic surgery may reveal anaerobes, a type of bacteria that grow in the absence of oxygen, which require treatment with broad-spectrum antibiotic drugs, or fungi, which require treatment with antifungal medications.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Sinus Infection Follow-up
People whose symptoms of a sinus infection do not go away despite the use of decongestants and antibiotics should follow-up with their primary care doctor or ENT specialist as soon as possible.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Sinus Infection Prevention
Prevention of a sinus infection depends upon its cause.
- Avoid contracting upper respiratory tract infections. Maintain strict hand washing habits and avoid people who are obviously suffering from a cold or the flu.
- Obtaining the influenza vaccination yearly will help to prevent the flu and subsequent infection of the upper respiratory tract.
- Antiviral medicines to treat the flu, such aszanamivir (Relenza) oseltamivir (Tamiflu),rimantadine (Flumadine), and amantadine(Symmetrel), if taken at the onset of symptoms, may also help to prevent infection.
- In some studies, zinc carbonate lozenges have been shown to reduce the duration of many cold symptoms.
- Stress reduction and a diet rich in antioxidants, especially fresh, dark-colored fruits and vegetables, may help strengthen the immune system.
- Plan for seasonal allergy attacks.
- If sinus infection is caused by seasonal or environmental allergies, avoiding allergens is very important. If avoidance is not an option, either OTC or prescription medication may be helpful. OTC antihistamines or decongestant nasal sprays can be used for an acute attack.
- People who have seasonal allergies may benefit from nonsedating prescription antihistamines during allergy-season months.
- Avoid spending long periods outdoors during allergy season. Close the windows to the house and use air conditioning to filter out allergens when possible. Humidifiers may also be helpful.
- Allergy shots, also called “immunotherapy,” may be effective in reducing or eliminating sinusitis due to allergies. Shots are administered by an allergist regularly for 3 to 5 years, but they often offer a reduction to complete remission of allergy symptoms for years.
- Stay hydrated
- Maintain good sinus hygiene by drinking plenty of fluids to keep nasal secretions thin.
- Saline nasal sprays (available at drug stores) help keep the nasal passages moist, helping remove infectious agents. Inhaling steam from a bowl of boiling water or in a hot, steamy shower may also help.
- Avoid air travel. If air travel is necessary, use a nasal decongestant spray prior to departure to keep the sinus passages open and frequently instill saline nasal spray during the flight.
- Avoid allergens in the environment
- People who suffer from chronic sinusitis should avoid areas and activities that may aggravate the condition, such as cigarette smoke, secondhand smoke, and diving under water in chlorinated pools.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Sinus Infection Prognosis
Sinusitis or sinus infections usually clear up if treated early and appropriately. Aside from those who develop complications, the outlook for acute bacterial sinusitis is good. People may develop chronic sinusitis or have recurrent attacks of acute sinusitis if they have allergic or structural causes for their sinusitis.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Author and Editors
Author: John P. Cunha, DO
Editors: Melissa Conrad Stöppler, MD andSteven Doerr, MD
REFERENCES:
American Academy of Allergy and Immunology. Tips to Remember: Allergy Shots.
CDC.gov. Sinus Conditions.
Hickner JM, Bartlett JG, Besser RE, Gonzales R, Hoffman JR, Sande MA; American Academy of Family Physicians; American College of Physicians-American Society of Internal Mediciine; Centers for Disease Control; Infectious Diseases Society of America. Principles of appropriate antibiotic use for acute rhinosinusitis in adults: background; Ann Intern Med. 2001 Mar 20;134(6):498-505.
Rabago D., Zgierska A. Saline Nasal Irrigation for Upper Respiratory Conditions. Am Fam Physician. 2009 November 15; 80(10): 1117–1119.
WebMD.com. Allergy Shots.
WebMD.com. Nasal Saline Irrigation and Neti Pots.
Common Cold
Colds Overview
A cold is defined as an upper respiratory infection caused by a virus that usually affects the nose but may also affect the throat, sinuses, eustachian tubes, trachea, larynx, and bronchial tubes but not the lungs. The cold is the most commonly occurring illness in the entire world, with more than 1 billion colds per year reported in the United States alone. The common cold is a self-limiting illness caused by any one of more than 250 viruses. However, the most common causes of colds are rhinoviruses. Colds may also be termed coryza, nasopharyngitis, rhinopharyngitis, and sniffles. Everyone is susceptible to colds.
The common cold produces mild symptoms (see below) usually lasting only five to 10 days although some symptoms may last for up to three weeks. In contrast, the “flu” (influenza), which is caused by a different class of virus, can cause severe symptoms but initially may mimic a cold.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Causes of Colds
Most viruses that cause colds are very contagious and are transmitted from person to person.
- Of the viruses that cause a cold, the most commonly occurring subtype is a group that lives in the nasal passages known as the “rhinovirus.” Other less common cold viruses include coronavirus, adenovirus, and respiratory syncytial virus (RSV).
- Cold viruses may spread through the air and can be transmitted from airborne droplets expelled when someone with a cold coughs or sneezes.
- The primary means of spreading a cold is through hand-to-face or -mouth contact or from objects that have been touched by someone with a cold, or by touching items where droplets produced by coughs or sneezes have recently landed and then touching the face or mouth.
- The typical transmission occurs when a cold sufferer rubs his or her nose and then, shortly thereafter, touches or shakes hands with someone who, in turn, touches his or her own nose, mouth, or eyes.
- Virus transmission also often occurs via frequently shared or touched objects such as doorknobs and other hard surfaces, handrails, grocery carts, telephones, and computer keyboards.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Colds Symptoms and Signs
The most common complaints associated with a cold usually are mild. The following symptoms usually occur with a cold:
- Runny nose (increased mucus production)
- Sneezing
- Nasal and sinus blockage (thick mucus and debris)
- Headache
- Sore throat
- Cough
- Mild fever
©2012, WebMD, LLC. All rights reserved, Source: WebMD
When to Seek Medical Care for a Cold
People usually do not need to call a doctor if they catch a cold. However, if symptoms become severe or people develop the following symptoms, the patient may have “the flu” virus,bacterial pneumonia, or another illness that should be reported to the doctor:
- Shaking chills
- Profuse sweating
- Muscle aches
- Nausea
- Vomiting
- High fever (greater than 102 F)
For mild-to-moderate cold symptoms, individuals usually do not need to see a doctor. Almost everything a doctor can prescribe to relieve symptoms can be purchased without a prescription.
For more severe symptoms or a prolonged duration of symptoms, people should visit their doctor. An office visit will usually suffice but if the person is extremely ill and seems to be getting worse, go to the emergency department.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Cold Diagnosis
Symptoms and a physical examination are all the doctor needs to diagnose the common cold. An initial diagnosis often is made from symptoms alone.
- Usually, no blood tests or X-rays are necessary.
- During the physical examination, the doctor will pay careful attention to the head, neck, and chest.
- The doctor will examine the eyes, ears, throat, and chest to help determine if a bacterial source is causing the illness.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Colds Treatment
Self-Care at Home
- If a cold occurs during pregnancy, women should check with their OB/GYN doctors before they attempt self-care at home that involves any over-the-counter medications.
- To date, no specific cure has been found for the group of viruses that cause the common cold. Antibiotics kill bacteria, not viruses, and are of no use in treating a cold.
- It seems unlikely that a single antiviral medication will be discovered in the near future that can target the over 200 different cold viruses. That is true in part because the viruses genetically change (mutate) each season just enough to prevent the development of a specific treatment for that virus.
- The good news is that people can take several steps to alleviate the symptoms once they have contracted a virus:
- Congestion: Drink plenty of fluids to help break up congestion and may help keep mucus from becoming too thick. Drinking water will prevent dehydration and keep the throat moist. Some clinicians recommend that people with colds should drink at least eight to 10 (8-ounce) cups of water daily.
- Fluids might include water, sports drinks, herbal teas, fruit drinks, ginger ale, and soups.
- Cola, coffee, and other drinks with caffeine often work to increase urine output when the goal is to increase fluids in the body system; consequently, such fluids may be counterproductive.
- Inhaled steam (from a safe distance so scalding of skin or mucus membranes is avoided) may ease congestion and drippy nose; the following are a few suggestions how to do this safely.
- Put a pot or teakettle on a trivet on a table and drape a towel around the steam and over the head.
- A humidifier can increase humidity in a room and is useful to use during the winter when heating dries out the air and a person’s mucus membranes.
- Moisture from a hot shower with the door closed, a saline nasal spray, or sitting close to a room humidifier may be as useful as any of the above.
- Fever and pain: Medications such as acetaminophen (Tylenol), ibuprofen(Advil, Motrin), or naproxen (Aleve) often help decrease fever, sore throat pain, and relieve body aches.
- High fever usually is not associated with the common cold and may be indicative of “the flu” — a more severe illness caused by an influenza virus. Report to your doctor any temperature greater than 102 F.
- Never give a child aspirin or medications containing aspirin. In children younger than 12 years, aspirin has been associated with Reye’s syndrome, a potentially fatal liver disorder.
- Cough: The cough is a reflex that occurs when the airway passages are irritated. Cough preparations are usually divided into two main categories:
- Suppressants: These act by blocking your cough reflex. As a general rule, use a suppressant for a dry, hacking cough. The agent usually found in over-the-counter cough suppressants is dextromethorphan (Benylin, Pertussin CS or DM, Robitussin Maximum Strength, Vicks 44 Cough Relief).
- Expectorants: A cough associated with excessive mucus production, or phlegm, warrants use of an expectorant. Guaifenesin (Mucinex, Organidin) is the most common active ingredient in over-the-counter expectorants (such as Anti-Tuss, Fenesin, Robitussin, Sinumist-SR, Mucenix). It is also used for nasal decongestion (see below).
- Sore throat
- Lozenges and topical sprays can provide relief from sore throat pain. In particular, lozenges containing zinc may relieve many cold symptoms better than other types of throat lozenges. The benefits of zinc are not proven, however, and it can cause stomach upset. It also has been linked to loss of the sense of smell.
- A warm saltwater gargle can relieve a scratchy throat.
- Nasal congestion: Nasal decongestants help relieve clogged nasal and sinus passages caused by excessive and thickened mucus secretion. There are several general types of decongestants and other medications available; some medications may combine some of these drugs:
- Oral medications come in either pill or liquid form and act by shrinking engorged blood vessels in the nasal and sinus passages. They work well because the medication is distributed in the bloodstream. Oral decongestants often are associated with stimulant side effects such as increased heart rate, increased blood pressure, and insomnia. A commonly used over-the-counter oral decongestant is pseudoephedrine(Actifed, Sudafed, Triaminic), but people with certain health conditions such as Parkinson’s disease, high blood pressure, or prostate disease should avoid its use.
- Nasal spray decongestants act similarly to oral decongestants but have the advantage of acting only in the area applied, usually without the stimulant side effects. The most common active ingredient in nasal sprays is oxymetazoline (Afrin, Dristan nasal spray, Neo-Synephrine, Vicks Sinex).
- A side effect of excessive use of nasal decongestants is dependency (rhinitis medicamentosa). Additionally, a “rebound” effect may occur in which nasal symptoms recur after a person abruptly stops the medication. Use these no longer than the package instructions indicate — usually three days.
- An expectorant, guaifenesin, is used to thin out bronchial secretions, including mucus. This allows the patient to more easily clear their airways that may become blocked with secretions and mucus thus making blowing the nose more effective in clearing secretions. It also functions as a cough suppressant.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Medical Treatment for a Cold
Many people may see their doctor because they think antibiotics can treat a cold. Antibiotics may kill bacteria but have no effect on viruses that usually cause colds.
Don’t expect the doctor to prescribe an antibiotic for a cold, even if one is requested. Antibiotics may not prevent bacterial infections developing from a cold, such as sinusitis or ear infections, even if taken “just in case” and may lead to diarrhea or the development of more serious problems such as infection withClostridium difficile or allow some organisms become resistant to the antibiotics.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Alternative Treatments for Colds
Alternative treatments claim to either prevent colds or reduce the severity and length of time of symptoms. Some of the major treatments are zinc compounds, vitamin C, and echinaceasupplements. Although there are some publications on these compounds, many clinicians consider the results inconclusive. Others suggest if the compounds are not used to excess, they may be helpful. Studies in 2012 suggested zinc may reduce symptoms by about one to two days but may produce a metallic taste or cause hearing difficulties. Some doctors suggest that the side effects are not worth the one to two days of reduced or absent symptoms. Check with your physician before using these treatments.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Follow-up
- If diagnosed with a common cold and the symptoms are improving after several days, no immediate follow-up is needed.
- If cold symptoms are not improving after five to 10 days or are worsening, call the doctor.
- People can exercise normally, especially if they just have a “cold” with no chest congestion and otherwise feel normal.
- Get plenty of rest. The body’s natural immune defenses can battle and defeat the common cold virus. Resting at home or in a low stress environment will help keep the immune system strong. Neither rest nor reasonable exercise will shorten the length of the cold.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Cold Prevention
- Wash hands frequently.
- Avoid touching the nose, mouth, and eyes.
- Do not share utensils or towels with anyone.
- Wear gloves while in public places, such as public transportation during the winter cold season.
- There is no vaccine to prevent colds. There are two major reasons vaccines are not being sought for colds. First, almost every person who gets a cold recovers without any complications, and second, with over 250 viral types, producing an effective vaccine against most or all viral types is nearly impossible with current techniques.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Cold Prognosis
The common cold usually will go away in usually about five to 10 days although some symptoms may last as long as three weeks in some individuals. Americans get over 1 billion colds per year and rarely report any complications.
In general, pregnant women and their fetus usually have no complications if the mother develops a cold. Pregnant females should consult their OB/GYN doctor before they using any medical treatments.
Among the elderly and other groups of people with serious medical conditions, a cold may sometimes lead to a serious problem. Those people should see a doctor early during the course of a cold as a preventive measure.
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Authors and Editors
Author: Charles P. Davis, MD, PhD
Editor: John P. Cunha, DO, FACOEP
Previous contributing author and editors:
Author: Leon Salem, MD, MS, FACEP, Assistant Professor, Department of Emergency Medicine, Martin Luther King Jr./Charles R Drew Medical Center.
Editors: Steven C Gabaeff, MD, FAAEM, Attending Physician, Emergency Medicine, Sutter Amador Hospital, Jackson, CA; Expert Consultant, Medical Board of California, Sacramento, CA; Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine; Steven L Bernstein, MD, Vice-Chair, Academic Affairs, Department of Emergency Medicine, Newark Beth Israel Medical Center; Assistant Professor, Department of Emergency Medicine, Mt Sinai School of Medicine.
REFERENCES:
“Common Cold Prevention.” WebMD.com. June 8, 2012. <http://www.webmd.com/cold-and-flu/cold-guide/common-cold-prevention>.
“Frequently Asked Questions About the Common Cold.” WebMD.com. Dec. 5, 2011. <http://www.webmd.com/cold-and-flu/top-10-questions-cold>.
United States. Centers for Disease Control and Prevention. “Cold Versus Flu.” Feb. 8, 2011. <http://www.cdc.gov/flu/about/qa/coldflu.htm>.
Last Editorial Review: 7/10/2012
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Colds
Topic Overview
What are colds?
Everyone gets a cold from time to time. Children get more colds than adults.
Colds usually last 1 to 2 weeks. You can catch a cold at any time of year, but they are more common in late winter and early spring.
There is no cure for a cold. Antibiotics will not cure a cold. If you catch a cold, treat the symptoms.
What are the symptoms?
Lots of different viruses cause colds, but the symptoms are usually the same:
- Runny nose and sneezing
- Red eyes
- Sore throat and cough
- Headaches and body aches
You will probably feel a cold come on over the course of a couple of days. As the cold gets worse, your nose may get stuffy with thicker mucus.
A cold is not the same as the flu (influenza). Flu symptoms are worse and come on faster. If you have the flu, you may feel very tired. You may also have a fever and shaking chills, lots of aches and pains, a headache, and a cough.
If you feel like you have a cold all the time, or if cold symptoms last more than 2 weeks, you may have allergies or sinusitis. Call your doctor.
What can you do for a cold?
Good home treatment of a cold can help you feel better. When you get a cold:
- Get extra rest. Slow down just a little from your usual routine. You don’t need to stay home in bed, but try not to expose others to your cold.
- Drink plenty of fluids. Hot water, herbal tea, or chicken soup will help relieve a stuffy nose and head.
- Take aspirin, ibuprofen (such as Advil or Motrin), or acetaminophen (such as Tylenol) to relieve aches. Follow the package instructions carefully. If you give medicine to your child, follow what your doctor has told you about the amount to give. Do not give aspirin to anyone younger than 20. It has been linked toReye syndrome, a serious illness.
- Use a humidifier in your bedroom and take hot showers to relieve a stuffy nose and head. Saline drops may also help thick or dried mucus to drain.
- If you feel mucus in the back of your throat (postnasal drip), gargle with warm water. This will help make your throat feel better.
- Use paper tissues, not handkerchiefs. This will help keep your cold from spreading.
- If your nose gets red and raw, put a dab of petroleum jelly on the sore area.
Using a product containing zinc may help shorten the length of your cold by up to a day.1 But you have to take the zinc as soon as you have any cold symptoms. In some cases, zinc products that you spray or place into your nose can cause permanent loss of the sense of smell.2
Don’t take cold medicine that uses several drugs to treat different symptoms. For example, don’t take medicine that contains both a decongestant for a stuffy nose and a cough medicine. Treat each symptom on its own.
A nasal decongestant spray can help your stuffy nose, but make sure you don’t use it for more than 3 days in a row. You could get a “rebound” effect, which makes the mucous membranes in your nose swell up even more.
Cough preparations can cause problems for people who have certain health problems, such as asthma, heart disease, high blood pressure, or an enlarged prostate (BPH). Cough preparations may also interact with sedatives, certain antidepressants, and other medicines. Read the package carefully, or ask your pharmacist or doctor to help you choose. Cough suppressants can stifle breathing. Use them with caution if you are older than 60 or if you have chronic respiratory problems.
Be careful with cold medicines. They may not be safe for young children, so check the label first. If you do give these medicines to a child, always follow the directions about how much to give based on the child’s age and weight. For more information, see Quick Tips: Giving Over-the-Counter Medicines to Children.
When should you call a doctor?
Call your doctor if:
- You have trouble breathing.
- You have a fever of 104°F (40°C) or higher.
- You have new symptoms that are not part of a cold, like a stiff neck or shortness of breath.
- You cough up yellow, green, or bloody mucus.
- Mucus from your nose is thick like pus or is bloody.
- You have pain in your face, eyes, or teeth that does not get better with home treatment, or you have a red area on your face or around your eyes.
- Your cold seemed to be getting better after a few days but is now getting worse with new symptoms.
How can you prevent colds?
There are several things you can do to help prevent colds:
- Wash your hands often.
- Be extra careful in winter and when you are around people with colds.
- Keep your hands away from your face. Your nose, eyes, and mouth are the most likely places for germs to enter your body.
- Eat well, and get plenty of sleep and exercise. This keeps your body strong so it can fight colds.
- Do not smoke. Smoking makes it easier to get a cold and harder to get rid of one.
Diabetes
Diabetes Mellitus
Diabetes facts
- Diabetes is a chronic condition associated with abnormally high levels of sugar (glucose) in the blood.
- Insulin produced by the pancreas lowers blood glucose.
- Absence or insufficient production of insulin causes diabetes.
- The two types of diabetes are referred to as type 1 and type 2. Former names for these conditions were insulin-dependent and non-insulin-dependent diabetes, or juvenile onset and adult onset diabetes.
- Symptoms of diabetes include increased urine output, thirst, hunger, and fatigue.
- Diabetes is diagnosed by blood sugar (glucose) testing.
- The major complications of diabetes are both acute and chronic.
- Acute complications: dangerously elevated blood sugar (hyperglycemia), abnormally low blood sugar (hypoglycemia) due to diabetes medications may occur
- Chronic complications: disease of the blood vessels (both small and large) which can damage the feet, eyes, kidneys, nerves, and heart may occur
- Diabetes treatment depends on the type and severity of the diabetes. Type 1 diabetes is treated with insulin, exercise, and a diabetic diet. Type 2 diabetes is first treated with weight reduction, a diabetic diet, and exercise. When these measures fail to control the elevated blood sugars, oral medications are used. If oral medications are still insufficient, insulin medications and other injectable medications are considered.
Reviewed by William C. Shiel Jr., MD, FACP, FACR on 6/5/2012
©2012, WebMD, LLC. All rights reserved, Source: WebMD
What is diabetes?
Diabetes mellitus is a group of metabolic diseases characterized by high blood sugar (glucose) levels that result from defects in insulin secretion, or its action, or both. Diabetes mellitus, commonly referred to as diabetes (as it will be in this article) was first identified as a disease associated with “sweet urine,” and excessive muscle loss in the ancient world. Elevated levels of blood glucose (hyperglycemia) lead to spillage of glucose into the urine, hence the term sweet urine.
Normally, blood glucose levels are tightly controlled by insulin, a hormone produced by the pancreas. Insulin lowers the blood glucose level. When the blood glucose elevates (for example, after eating food), insulin is released from the pancreas to normalize the glucose level. In patients with diabetes, the absence or insufficient production of insulin causes hyperglycemia. Diabetes is a chronic medical condition, meaning that although it can be controlled, it lasts a lifetime.
What is the impact of diabetes?
Over time, diabetes can lead to blindness,kidney failure, and nerve damage. These types of damage are the result of damage to small vessels, referred to as microvascular disease. Diabetes is also an important factor in accelerating the hardening and narrowing of the arteries (atherosclerosis), leading to strokes,coronary heart disease, and other large blood vessel diseases. This is referred to as macrovascular disease. Diabetes affects approximately 26 million people in the United States, while another 79 million gave prediabetes. In addition, an estimated additional 7 million people in the United States have diabetes and don’t even know it.
From an economic perspective, the total annual cost of diabetes in 2011 was estimated to be 174 billion dollars in the United States. This included 116 billion in direct medical costs (healthcare costs) for people with diabetes and another 58 billion in other costs due to disability, premature death, or work loss. Medical expenses for people with diabetes ate over two times higher than those for people who do not have diabetes. Remember, these numbers reflect only the population in the United States. Globally, the statistics are staggering..
Diabetes was the 7th leading cause of death in the United States listed on death certificates in 2007.
Reviewed by William C. Shiel Jr., MD, FACP, FACR on 6/5/2012
©2012, WebMD, LLC. All rights reserved, Source: WebMD
What causes diabetes?
Insufficient production of insulin (either absolutely or relative to the body’s needs), production of defective insulin (which is uncommon), or the inability of cells to use insulin properly and efficiently leads to hyperglycemia and diabetes. This latter condition affects mostly the cells of muscle and fat tissues, and results in a condition known as insulin resistance. This is the primary problem in type 2 diabetes. The absolute lack of insulin, usually secondary to a destructive process affecting the insulin-producing beta cells in the pancreas, is the main disorder in type 1 diabetes. In type 2 diabetes, there also is a steady decline of beta cells that adds to the process of elevated blood sugars. Essentially, if someone is resistant to insulin, the body can, to some degree, increase production of insulin and overcome the level of resistance. After time, if production decreases and insulin cannot be released as vigorously, hyperglycemia develops.
Glucose is a simple sugar found in food. Glucose is an essential nutrient that provides energy for the proper functioning of the body cells. Carbohydrates are broken down in the small intestine and the glucose in digested food is then absorbed by the intestinal cells into the bloodstream, and is carried by the bloodstream to all the cells in the body where it is utilized. However, glucose cannot enter the cells alone and needs insulin to aid in its transport into the cells. Without insulin, the cells become starved of glucose energy despite the presence of abundant glucose in the bloodstream. In certain types of diabetes, the cells’ inability to utilize glucose gives rise to the ironic situation of “starvation in the midst of plenty”. The abundant, unutilized glucose is wastefully excreted in the urine.
Insulin is a hormone that is produced by specialized cells (beta cells) of the pancreas. (The pancreas is a deep-seated organ in the abdomen located behind the stomach.) In addition to helping glucose enter the cells, insulin is also important in tightly regulating the level of glucose in the blood. After a meal, the blood glucose level rises. In response to the increased glucose level, the pancreas normally releases more insulin into the bloodstream to help glucose enter the cells and lower blood glucose levels after a meal. When the blood glucose levels are lowered, the insulin release from the pancreas is turned down. It is important to note that even in the fasting state there is a low steady release of insulin than fluctuates a bit and helps to maintain a steady blood sugar level during fasting. In normal individuals, such a regulatory system helps to keep blood glucose levels in a tightly controlled range. As outlined above, in patients with diabetes, the insulin is either absent, relatively insufficient for the body’s needs, or not used properly by the body. All of these factors cause elevated levels of blood glucose (hyperglycemia).
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http://www.medicinenet.com/diabetes_mellitus/page3.htm
Reviewed by William C. Shiel Jr., MD, FACP, FACR on 6/5/2012
©2012, WebMD, LLC. All rights reserved, Source: WebMD
What are the different types of diabetes?
There are two major types of diabetes, called type 1 and type 2. Type 1 diabetes was also formerly called insulin dependent diabetes mellitus (IDDM), or juvenile onset diabetes mellitus. In type 1 diabetes, the pancreas undergoes an autoimmune attack by the body itself, and is rendered incapable of making insulin. Abnormal antibodies have been found in the majority of patients with type 1 diabetes. Antibodies are proteins in the blood that are part of the body’s immune system. The patient with type 1 diabetes must rely on insulin medication for survival.
In autoimmune diseases, such as type 1 diabetes, the immune system mistakenly manufactures antibodies and inflammatory cells that are directed against and cause damage to patients’ own body tissues. In persons with type 1 diabetes, the beta cells of the pancreas, which are responsible for insulin production, are attacked by the misdirected immune system. It is believed that the tendency to develop abnormal antibodies in type 1 diabetes is, in part, genetically inherited, though the details are not fully understood.
Exposure to certain viral infections (mumps and Coxsackie viruses) or other environmental toxins may serve to trigger abnormal antibody responses that cause damage to the pancreas cells where insulin is made. Some of the antibodies seen in type 1 diabetes include anti-islet cell antibodies, anti-insulin antibodies and anti-glutamic decarboxylase antibodies. These antibodies can be detected in the majority of patients, and may help determine which individuals are at risk for developing type 1 diabetes.
At present, the American Diabetes Association does not recommend general screening of the population for type 1 diabetes, though screening of high risk individuals, such as those with a first degree relative (sibling or parent) with type 1 diabetes should be encouraged. Type 1 diabetes tends to occur in young, lean individuals, usually before 30 years of age, however, older patients do present with this form of diabetes on occasion. This subgroup is referred to as latent autoimmune diabetes in adults (LADA). LADA is a slow, progressive form of type 1 diabetes. Of all the people with diabetes, only approximately 10% have type 1 diabetes and the remaining 90% have type 2 diabetes.
Type 2 diabetes was also previously referred to as non-insulin dependent diabetes mellitus (NIDDM), or adult onset diabetes mellitus (AODM). In type 2 diabetes, patients can still produce insulin, but do so relatively inadequately for their body’s needs, particularly in the face of insulin resistance as discussed above. In many cases this actually means the pancreas produces larger than normal quantities of insulin. A major feature of type 2 diabetes is a lack of sensitivity to insulin by the cells of the body (particularly fat and muscle cells).
In addition to the problems with an increase in insulin resistance, the release of insulin by the pancreas may also be defective and suboptimal. In fact, there is a known steady decline in beta cell production of insulin in type 2 diabetes that contributes to worsening glucose control. (This is a major factor for many patients with type 2 diabetes who ultimately require insulin therapy.) Finally, the liver in these patients continues to produce glucose through a process called gluconeogenesis despite elevated glucose levels. The control of gluconeogenesis becomes compromised.
While it is said that type 2 diabetes occurs mostly in individuals over 30 years old and the incidence increases with age, we are seeing an alarming number patients with type 2 diabetes who are barely in their teen years. Most of these cases are a direct result of poor eating habits, higher body weight, and lack of exercise.
While there is a strong genetic component to developing this form of diabetes, there are other risk factors – the most significant of which is obesity. There is a direct relationship between the degree of obesity and the risk of developing type 2 diabetes, and this holds true in children as well as adults. It is estimated that the chance to develop diabetes doubles for every 20% increase over desirable body weight.
Regarding age, data shows that for each decade after 40 years of age regardless of weight there is an increase in incidence of diabetes. The prevalence of diabetes in persons 65 years of age and older is around 27%. Type 2 diabetes is also more common in certain ethnic groups. Compared with a 7% prevalence in non-Hispanic Caucasians, the prevalence in Asian Americans is estimated to be 8%, in Hispanics 12%, in blacks around 13%, and in certain Native American communities 20% to 50%. Finally, diabetes occurs much more frequently in women with a prior history of diabetes that develops during pregnancy (gestational diabetes).
Diabetes can occur temporarily during pregnancy, and reports suggest that it occurs in 2% to 10% of all pregnancies. Significant hormonal changes during pregnancy can lead to blood sugar elevation in genetically predisposed individuals. Blood sugar elevation during pregnancy is called gestational diabetes. Gestational diabetes usually resolves once the baby is born. However, 35% to 60% of women with gestational diabetes will eventually develop type 2 diabetes over the next 10 to 20 years, especially in those who require insulin during pregnancy and those who remain overweight after their delivery. Patients with gestational diabetes are usually asked to undergo an oral glucose tolerance test about six weeks after giving birth to determine if their diabetes has persisted beyond the pregnancy, or if any evidence (such as impaired glucose tolerance) is present that may be a clue to the patient’s future risk for developing diabetes.
“Secondary” diabetes refers to elevated blood sugar levels from another medical condition. Secondary diabetes may develop when the pancreatic tissue responsible for the production of insulin is destroyed by disease, such as chronic pancreatitis (inflammation of the pancreas by toxins like excessive alcohol), trauma, or surgical removal of the pancreas.
Diabetes can also result from other hormonal disturbances, such as excessive growth hormone production (acromegaly) and Cushing’s syndrome. In acromegaly, a pituitary gland tumor at the base of the brain causes excessive production of growth hormone, leading to hyperglycemia. In Cushing’s syndrome, the adrenal glands produce an excess of cortisol, which promotes blood sugar elevation.
In addition, certain medications may worsen diabetes control, or “unmask” latent diabetes. This is seen most commonly when steroid medications (such as prednisone) are taken and also with medications used in the treatment of HIV infection (AIDS).
Reviewed by William C. Shiel Jr., MD, FACP, FACR on 6/5/2012
©2012, WebMD, LLC. All rights reserved, Source: WebMD
What are diabetes symptoms?
The early symptoms of untreated diabetes are related to elevated blood sugar levels, and loss of glucose in the urine. High amounts of glucose in the urine can cause increased urine output and lead to dehydration. Dehydration causes increased thirst and water consumption.
- The inability of insulin to perform normally has effects on protein, fat and carbohydrate metabolism. Insulin is an anabolic hormone, that is, one that encourages storage of fat and protein.
- A relative or absolute insulin deficiency eventually leads to weight loss despite an increase in appetite.
- Some untreated diabetes patients also complain of fatigue, nausea and vomiting.
- Patients with diabetes are prone to developing infections of the bladder, skin, and vaginal areas.
- Fluctuations in blood glucose levels can lead to blurred vision. Extremely elevated glucose levels can lead to lethargy and coma.
How is diabetes diagnosed?
The fasting blood glucose (sugar) test is the preferred way to diagnose diabetes. It is easy to perform and convenient. After the person has fasted overnight (at least 8 hours), a single sample of blood is drawn and sent to the laboratory for analysis. This can also be done accurately in a doctor’s office using a glucose meter.
- Normal fasting plasma glucose levels are less than 100 milligrams per deciliter (mg/dl).
- Fasting plasma glucose levels of more than 126 mg/dl on two or more tests on different days indicate diabetes.
- A random blood glucose test can also be used to diagnose diabetes. A blood glucose level of 200 mg/dl or higher indicates diabetes.
When fasting blood glucose stays above 100mg/dl, but in the range of 100-126mg/dl, this is known as impaired fasting glucose (IFG). While patients with IFG do not have the diagnosis of diabetes, this condition carries with it its own risks and concerns, and is addressed elsewhere.
The oral glucose tolerance test
Though not routinely used anymore, the oral glucose tolerance test (OGTT) is a gold standard for making the diagnosis of type 2 diabetes. It is still commonly used for diagnosing gestational diabetes and in conditions of pre-diabetes, such as polycystic ovary syndrome. With an oral glucose tolerance test, the person fasts overnight (at least eight but not more than 16 hours). Then first, the fasting plasma glucose is tested. After this test, the person receives 75 grams of glucose. There are several methods employed by obstetricians to do this test, but the one described here is standard. Usually, the glucose is in a sweet-tasting liquid that the person drinks. Blood samples are taken at specific intervals to measure the blood glucose.
For the test to give reliable results:
- The person must be in good health (not have any other illnesses, not even a cold).
- The person should be normally active (not lying down, for example, as an inpatient in a hospital), and
- The person should not be taking medicines that could affect the blood glucose.
- The morning of the test, the person should not smoke or drink coffee.
The classic oral glucose tolerance test measures blood glucose levels five times over a period of three hours. Some physicians simply get a baseline blood sample followed by a sample two hours after drinking the glucose solution. In a person without diabetes, the glucose levels rise and then fall quickly. In someone with diabetes, glucose levels rise higher than normal and fail to come back down as fast.
People with glucose levels between normal and diabetic have impaired glucose tolerance (IGT). People with impaired glucose tolerance do not have diabetes, but are at high risk for progressing to diabetes. Each year, 1% to 5% of people whose test results show impaired glucose tolerance actually eventually develop diabetes. Weight loss and exercise may help people with impaired glucose tolerance return their glucose levels to normal. In addition, some physicians advocate the use of medications, such as metformin (Glucophage), to help prevent/delay the onset of overt diabetes.
Research has shown that impaired glucose tolerance itself may be a risk factor for the development of heart disease. In the medical community, most physicians are now understanding that impaired glucose tolerance is nor simply a precursor of diabetes, but is its own clinical disease entity that requires treatment and monitoring.
Evaluating the results of the oral glucose tolerance test
Glucose tolerance tests may lead to one of the following diagnoses:
- Normal response: A person is said to have a normal response when the 2-hour glucose level is less than 140 mg/dl, and all values between 0 and 2 hours are less than 200 mg/dl.
- Impaired glucose tolerance: A person is said to have impaired glucose tolerance when the fasting plasma glucose is less than 126 mg/dl and the 2-hour glucose level is between 140 and 199 mg/dl.
- Diabetes: A person has diabetes when two diagnostic tests done on different days show that the blood glucose level is high.
- Gestational diabetes: A pregnant woman has gestational diabetes when she has any two of the following:, a fasting plasma glucose of 92 mg/dl or more, a 1-hour glucose level of 180 mg/dl or more, or a 2-hour glucose level of 153 mg/dl, or more.
Reviewed by William C. Shiel Jr., MD, FACP, FACR on 6/5/2012
©2012, WebMD, LLC. All rights reserved, Source: WebMD
Why is blood sugar checked at home?
Home blood sugar (glucose) testing is an important part of controlling blood sugar. One important goal of diabetes treatment is to keep the blood glucose levels near the normal range of 70 to 120 mg/dl before meals and under 140 mg/dl at two hours after eating. Blood glucose levels are usually tested before and after meals, and at bedtime. The blood sugar level is typically determined by pricking a fingertip with a lancing device and applying the blood to a glucose meter, which reads the value. There are many meters on the market, for example, Accu-Check Advantage, One Touch Ultra, Sure Step and Freestyle. Each meter has its own advantages and disadvantages (some use less blood, some have a larger digital readout, some take a shorter time to give you results, etc). The test results are then used to help patients make adjustments in medications, diets, and physical activities.
There are some interesting developments in blood glucose monitoring including continuous glucose senors. The new continuous glucose sensor systems involve an implantable cannula placed just under the skin in the abdomen or in the arm. This cannula allows for frequent sampling of blood glucose levels. Attached to this is a transmitter that sends the data to a pager-like device. This device has a visual screen that allows the wearer to see, not only the current glucose reading, but also the graphic trends. In some devices, the rate of change of blood sugar is also shown. There are alarms for low and high sugar levels. Certain models will alarm if the rate of change indicates the wearer is at risk for dropping or rising blood glucose too rapidly. One version is specifically designed to interface with their insulin pumps. However, at this time the patient still must manually approve any insulin dose (the pump cannot blindly respond to the glucose information it receives, it can only give a calculated suggestion as to whether the wearer should give insulin, and if so, how much). All of these devices need to be correlated to fingersticks for a few hours before they can function independently. The devices can then provide readings for 3-5 days.
Diabetes experts feel that these blood glucose monitoring devices give patients a significant amount of independence to manage their disease process; and they are a great tool for education as well. It is also important to remember that these devices can be used intermittently with fingerstick measurements. For example, a well-controlled patient with diabetes can rely on fingerstick glucose checks a few times a day and do well. If they become ill, if they decide to embark on a new exercise regimen, if they change their diet and so on, they can use the sensor to supplement their fingerstick regimen, providing more information on how they are responding to new lifestyle changes or stressors. This kind of system takes us one step closer to closing the loop, and to the development of an artificial pancreas that senses insulin requirements based on glucose levels and the body’s needs and releases insulin accordingly – the ultimate goal.
Hemoglobin A1c (HBA1c)
To explain what an hemoglobin A1c is, think in simple terms. Sugar sticks, and when it’s around for a long time, it’s harder to get it off. In the body, sugar sticks too, particularly to proteins. The red blood cells that circulate in the body live for about three months before they die off. When sugar sticks to these cells, it gives us an idea of how much sugar is present in the bloodstream for the preceding three months. In most labs, the normal range is 4%-5.9 %. In poorly controlled diabetes, its 8.0% or above, and in well controlled patients it’s less than 7.0% (optimal is <6.5%). The benefits of measuring A1c is that is gives a more reasonable and stable view of what’s happening over the course of time (three months), and the value does not vary as much as finger stick blood sugar measurements. There is a direct correlation between A1c levels and average blood sugar levels as follows.
While there are no guidelines to use A1c as a screening tool, it gives a physician a good idea that someone is diabetic if the value is elevated. Right now, it is used as a standard tool to determine blood sugar control in patients known to have diabetes.
HBA1c(%) |
Mean blood sugar (mg/dl) |
|
6 |
135 |
|
7 |
170 |
|
8 |
205 |
|
9 |
240 |
|
10 |
275 |
|
11 |
310 |
|
12 |
345 |
The American Diabetes Association currently recommends an A1c goal of less than 7.0% with A1C goal for selected individuals of as close to normal as possible (<6%) without significant hypoglycemia. Other Groups such as the American Association of Clinical Endocrinologists feel that an A1c of <6.5% should be the goal.
Of interest, studies have shown that there is about a 35% decrease in relative risk for microvascular disease for every 1% reduction in A1c. The closer to normal the A1c, the lower the absolute risk for microvascular complications.
It should be mentioned here that there are a number of conditions in which an A1c value may not be accurate. For example, with significant anemia, the red blood cell count is low, and thus the A1c is altered. This may also be the case in sickle cell disease and other hemoglobinopathies.
Reviewed by William C. Shiel Jr., MD, FACP, FACR on 6/5/2012
©2012, WebMD, LLC. All rights reserved, Source: WebMD
What are the acute complications of diabetes?
- Severely elevated blood sugar levels due to an actual lack of insulin or a relative deficiency of insulin.
- Abnormally low blood sugar levels due to too much insulin or other glucose-lowering medications.
Insulin is vital to patients with type 1 diabetes – they cannot live with out a source of exogenous insulin. Without insulin, patients with type 1 diabetes develop severely elevated blood sugar levels. This leads to increased urine glucose, which in turn leads to excessive loss of fluid and electrolytes in the urine. Lack of insulin also causes the inability to store fat and protein along with breakdown of existing fat and protein stores. This dysregulation, results in the process of ketosis and the release of ketones into the blood. Ketones turn the blood acidic, a condition called diabetic ketoacidosis (DKA). Symptoms of diabetic ketoacidosis include nausea, vomiting, and abdominal pain. Without prompt medical treatment, patients with diabetic ketoacidosis can rapidly go into shock, coma, and even death.
Diabetic ketoacidosis can be caused by infections, stress, or trauma all which may increase insulin requirements. In addition, missing doses of insulin is also an obvious risk factor for developing diabetic ketoacidosis. Urgent treatment of diabetic ketoacidosis involves the intravenous administration of fluid, electrolytes, and insulin, usually in a hospital intensive care unit. Dehydration can be very severe, and it is not unusual to need to replace 6-7 liters of fluid when a person presents in diabetic ketoacidosis. Antibiotics are given for infections. With treatment, abnormal blood sugar levels, ketone production, acidosis, and dehydration can be reversed rapidly, and patients can recover remarkably well.
In patients with type 2 diabetes, stress, infection, and medications (such as corticosteroids) can also lead to severely elevated blood sugar levels. Accompanied by dehydration, severe blood sugar elevation in patients with type 2 diabetes can lead to an increase in blood osmolality (hyperosmolar state). This condition can worsen and lead to coma (hyperosmolar coma). A hyperosmolar coma usually occurs in elderly patients with type 2 diabetes. Like diabetic ketoacidosis, a hyperosmolar coma is a medical emergency. Immediate treatment with intravenous fluid and insulin is important in reversing the hyperosmolar state. Unlike patients with type 1 diabetes, patients with type 2 diabetes do not generally develop ketoacidosis solely on the basis of their diabetes. Since in general, type 2 diabetes occurs in an older population, concomitant medical conditions are more likely to be present, and these patients may actually be sicker overall. The complication and death rates from hyperosmolar coma is thus higher than in DKA.
Hypoglycemia means abnormally low blood sugar (glucose). In patients with diabetes, the most common cause of low blood sugar is excessive use of insulin or other glucose-lowering medications, to lower the blood sugar level in diabetic patients in the presence of a delayed or absent meal. When low blood sugar levels occur because of too much insulin, it is called an insulin reaction. Sometimes, low blood sugar can be the result of an insufficient caloric intake or sudden excessive physical exertion.
Blood glucose is essential for the proper functioning of brain cells. Therefore, low blood sugar can lead to central nervous system symptoms such as:
- dizziness,
- confusion,
- weakness, and
- tremors.
The actual level of blood sugar at which these symptoms occur varies with each person, but usually it occurs when blood sugars are less than 65 mg/dl. Untreated, severely low blood sugar levels can lead to coma, seizures, and, in the worse case scenario, irreversible brain death. At this point, the brain is suffering from a lack of sugar, and this usually occurs somewhere around levels of <40 mg/dl.
The treatment of low blood sugar consists of administering a quickly absorbed glucose source. These include glucose containing drinks, such as orange juice, soft drinks (not sugar-free), or glucose tablets in doses of 15-20 grams at a time (for example, the equivalent of half a glass of juice). Even cake frosting applied inside the cheeks can work in a pinch if patient cooperation is difficult. If the individual becomes unconscious, glucagon can be given by intramuscular injection.
Glucagon is a hormone that causes the release of glucose from the liver (for example, it promotes gluconeogenesis). Glucagon can be lifesaving and every patient with diabetes who has a history of hypoglycemia (particularly those on insulin) should have a glucagon kit. Families and friends of those with diabetes need to be taught how to administer glucagon, since obviously the patients will not be able to do it themselves in an emergency situation. Another lifesaving device that should be mentioned is very simple; a medic alert bracelet should be worn by all patients with diabetes.
Reviewed by William C. Shiel Jr., MD, FACP, FACR on 6/5/2012
©2012, WebMD, LLC. All rights reserved, Source: WebMD
What are the chronic complications of diabetes?
These diabetes complications are related to blood vessel diseases and are generally classified into small vessel disease, such as those involving the eyes, kidneys and nerves (microvascular disease), and large vessel disease involving the heart and blood vessels (macrovascular disease). Diabetes accelerates hardening of the arteries (atherosclerosis) of the larger blood vessels, leading to coronary heart disease (angina or heart attack), strokes, and pain in the lower extremities because of lack of blood supply (claudication).
Eye Complications
The major eye complication of diabetes is called diabetic retinopathy. Diabetic retinopathy occurs in patients who have had diabetes for at least five years. Diseased small blood vessels in the back of the eye cause the leakage of protein and blood in the retina. Disease in these blood vessels also causes the formation of small aneurysms (microaneurysms), and new but brittle blood vessels (neovascularization). Spontaneous bleeding from the new and brittle blood vessels can lead to retinal scarring and retinal detachment, thus impairing vision.
To treat diabetic retinopathy a laser is used to destroy and prevent the recurrence of the development of these small aneurysms and brittle blood vessels. Approximately 50% of patients with diabetes will develop some degree of diabetic retinopathy after 10 years of diabetes, and 80% of diabetics have retinopathy after 15 years of the disease. Poor control of blood sugar and blood pressure further aggravates eye disease in diabetes.
Cataracts and glaucoma are also more common among diabetics. It is also important to note that since the lens of the eye lets water through, if blood sugar concentrations vary a lot, the lens of the eye will shrink and swell with fluid accordingly. As a result, blurry vision is very common in poorly controlled diabetes. Patients are usually discouraged from getting a new eyeglass prescription until their blood sugar is controlled. This allows for a more accurate assessment of what kind of glasses prescription is required.
Kidney damage
Kidney damage from diabetes is called diabetic nephropathy. The onset of kidney disease and its progression is extremely variable. Initially, diseased small blood vessels in the kidneys cause the leakage of protein in the urine. Later on, the kidneys lose their ability to cleanse and filter blood. The accumulation of toxic waste products in the blood leads to the need for dialysis. Dialysis involves using a machine that serves the function of the kidney by filtering and cleaning the blood. In patients who do not want to undergo chronic dialysis, kidney transplantation can be considered.
The progression of nephropathy in patients can be significantly slowed by controlling high blood pressure, and by aggressively treating high blood sugar levels. Angiotensin converting enzyme inhibitors (ACE inhibitors) or angiotensin receptor blockers (ARBs) used in treating high blood pressuremay also benefit kidney disease in diabetic patients.
Nerve damage
Nerve damage from diabetes is called diabetic neuropathy and is also caused by disease of small blood vessels. In essence, the blood flow to the nerves is limited, leaving the nerves without blood flow, and they get damaged or die as a result (a term known as ischemia). Symptoms of diabetic nerve damage include numbness, burning, and aching of the feet and lower extremities. When the nerve disease causes a complete loss of sensation in the feet, patients may not be aware of injuries to the feet, and fail to properly protect them. Shoes or other protection should be worn as much as possible. Seemingly minor skin injuries should be attended to promptly to avoid serious infections. Because of poor blood circulation, diabetic foot injuries may not heal. Sometimes, minor foot injuries can lead to serious infection, ulcers, and even gangrene, necessitating surgical amputation of toes, feet, and other infected parts.
Diabetic nerve damage can affect the nerves that are important for penile erection, causing erectile dysfunction (ED, impotence). Erectile dysfunction can also be caused by poor blood flow to the penis from diabetic blood vessel disease.
Diabetic neuropathy can also affect nerves to the stomach and intestines, causing nausea, weight loss, diarrhea, and other symptoms of gastroparesis(delayed emptying of food contents from the stomach into the intestines, due to ineffective contraction of the stomach muscles).
The pain of diabetic nerve damage may respond to traditional treatments with certain medications such as gabapentin (Neurontin), henytoin (Dilantin), and arbamazepine (Tegretol) that are traditionally used in the treatment of seizure disorders. mitriptyline (Elavil, Endep) and desipramine(Norpraminine) are medications that are traditionally used for depression. While many of these medications are not indicated specifically for the treatment of diabetes related nerve pain, they are used by physicians commonly.
The pain of diabetic nerve damage may also improve with better blood sugar control, though unfortunately blood glucose control and the course of neuropathy do not always go hand in hand. Newer medications for nerve pain include Pregabalin (Lyrica) and duloxetine (Cymbalta).
Reviewed by William C. Shiel Jr., MD, FACP, FACR on 6/5/2012
©2012, WebMD, LLC. All rights reserved, Source: WebMD
What can be done to slow diabetes complications?
Findings from the Diabetes Control and Complications Trial (DCCT) and the United Kingdom Prospective Diabetes Study (UKPDS) have clearly shown that aggressive and intensive control of elevated levels of blood sugar in patients with type 1 and type 2 diabetes decreases the complications of nephropathy, neuropathy, retinopathy, and may reduce the occurrence and severity of large blood vessel diseases. Aggressive control with intensive therapy means achieving fasting glucose levels between 70-120 mg/dl; glucose levels of less than 160 mg/dl after meals; and a near normal hemoglobin A1c levels (see below).
Studies in type 1 patients have shown that in intensively treated patients, diabetic eye disease decreased by 76%, kidney disease decreased by 54%, and nerve disease decreased by 60%. More recently the EDIC trial has shown that type 1 diabetes is also associated with increased heart disease, similar to type 2 diabetes. However, the price for aggressive blood sugar control is a two to three fold increase in the incidence of abnormally low blood sugar levels (caused by the diabetes medications). For this reason, tight control of diabetes to achieve glucose levels between 70 to120 mg/dl is not recommended for children under 13 years of age, patients with severe recurrent hypoglycemia, patients unaware of their hypoglycemia, and patients with far advanced diabetes complications. To achieve optimal glucose control without an undue risk of abnormally lowering blood sugar levels, patients with type 1 diabetes must monitor their blood glucose at least four times a day and administer insulin at least three times per day. In patients with type 2 diabetes, aggressive blood sugar control has similar beneficial effects on the eyes, kidneys, nerves and blood vessels.
REFERENCES:
American Diabetes Association. Diabetes Basics.
CDC.gov. Diabetes Publick Health Resource.
MedscapeReference.com. Type 2 Diabetes Mellitus.
Previous contributing author: Ruchi Mathur, MD, FRCP(C)
Reviewed by William C. Shiel Jr., MD, FACP, FACR on 6/5/2012