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What are the treatments for Kidney Disease ?	During your next health care visit, talk to your provider about your test results and how to manage your kidney disease. Below is a list of questions you may want to ask. Add any questions you think are missing, and mark those that are most important to you. Bring your list with you. About your tests - Did you check my kidney health with blood and urine tests? - What was my GFR? What does that mean? - Has my GFR changed since last time? - What is my urine albumin level? What does that mean? - Has my urine albumin changed since the last time it was checked? - Is my kidney disease getting worse? - Is my blood pressure where it needs to be? - Will I need dialysis? - When should I talk to my family about dialysis or a kidney transplant? Did you check my kidney health with blood and urine tests? What was my GFR? What does that mean? Has my GFR changed since last time? What is my urine albumin level? What does that mean? Has my urine albumin changed since the last time it was checked? Is my kidney disease getting worse? Is my blood pressure where it needs to be? Will I need dialysis? When should I talk to my family about dialysis or a kidney transplant? (Watch the video to learn more about dialysis decisions. To enlarge the videos on this page, click the brackets in the lower right-hand corner of the video screen. To reduce the videos, press the Escape (Esc) button on your keyboard.) About treatment and self-care - What can I do to keep my disease from getting worse? - Do any of my medicines or doses need to be changed? - Do I need to change what I eat? Am I eating the right amount of protein, salt (sodium), potassium, and phosphorus? - Will you refer me to a dietitian for diet counseling? - When will I need to see a nephrologist (kidney specialist)? - What do I need to do to protect my veins? What can I do to keep my disease from getting worse? Do any of my medicines or doses need to be changed? Do I need to change what I eat? Am I eating the right amount of protein, salt (sodium), potassium, and phosphorus? Will you refer me to a dietitian for diet counseling? When will I need to see a nephrologist (kidney specialist)? What do I need to do to protect my veins? (Watch the video to learn more about lifestyle and diet changes to make with kidney disease.) About complications - What other health problems may I face because of my kidney disease? - Should I be looking for any symptoms? If so, what are they? What other health problems may I face because of my kidney disease? Should I be looking for any symptoms? If so, what are they? If you're told that you need renal replacement therapy (dialysis or a transplant) - How do I decide which treatment is right for me? - How do I prepare for dialysis? - What is an AV fistula? - How soon do I begin preparing? - How can my family help me? How do I decide which treatment is right for me? How do I prepare for dialysis? What is an AV fistula? How soon do I begin preparing? How can my family help me?
What is (are) Kidney Disease ?	When your kidneys fail, they are no longer able to filter blood and remove waste from your body well enough to maintain health. Kidney failure causes harmful waste and excess fluid to build up in your body. Your blood pressure may rise, and your hands and feet may swell. Since the kidneys are not working well, the goal is to find treatments that can replace kidney function in order to maintain health. There are two main options for this: dialysis and transplantation.
What are the treatments for Kidney Disease ?	Dialysis is a treatment to filter wastes and water from your blood. There are two major forms of dialysis: hemodialysis and peritoneal dialysis. (Watch the video to learn more about dialysis. To enlarge the video, click the brackets in the lower right-hand corner. To reduce the video, press the Escape (Esc) button on your keyboard.) In hemodialysis, blood is run through a filter outside of your body and the clean blood is returned to the body. Hemodialysis is usually done at a dialysis center three times a week, but it can also be done at home. Each session usually lasts between three and four hours. Peritoneal dialysis is another way to remove wastes from your blood. This kind of dialysis uses the lining of your abdominal cavity (the space in your body that holds organs like the stomach, intestines, and liver) to filter your blood. It works by putting a special fluid into your abdomen that absorbs waste products in your blood as it passes through small blood vessels in this lining. This fluid is then drained away. A key benefit of peritoneal dialysis is that it can be done at home, while you sleep. Get more information about dialysis.
What is (are) Kidney Disease ?	Instead of dialysis, some people with kidney failure -- including older adults -- may be able to receive a kidney transplant. This involves having a healthy kidney from another person surgically placed into your body. The new, donated kidney does the work that your two failed kidneys used to do. The donated kidney can come from an anonymous donor who has recently died, or from a living person -- usually a relative. But you might also be able to receive a kidney from an unrelated donor, including your spouse or a friend. (Watch the video to learn more about kidney transplantation. To enlarge the video, click the brackets in the lower right-hand corner. To reduce the video, press the Escape (Esc) button on your keyboard.) Kidney transplantation is a treatment for kidney failure -- not a cure. You will need to see your healthcare provider regularly. And you will need to take medications for as long as you have your transplant to suppress your immune system so it doesn't reject the transplanted kidney.
what research (or clinical trials) is being done for Kidney Disease ?	There are many researchers who are working on kidney disease. They are looking for ways to improve diagnosis, make treatments more effective, and make dialysis and transplantation work better. Several areas of research supported by the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) hold great potential. Emphasis is being placed on research related to prevention and early intervention in kidney disease. Another focus is on the interaction between diabetes, kidney disease, and cardiovascular disease. Advances in treatments for diabetes and high blood pressure may help reduce the damage these conditions do to the kidneys in the first place. Research into how to predict who will develop kidney disease may improve prevention.
What is (are) Age-related Macular Degeneration ?	Age-related macular degeneration, also known as AMD, is an eye disease that affects the macula, a part of the retina. The retina sends light from the eye to the brain, and the macula allows you to see fine detail. AMD Blurs Central Vision AMD blurs the sharp central vision you need for straight-ahead activities such as reading, sewing, and driving. AMD causes no pain. How AMD Progresses In some cases, AMD advances so slowly that people notice little change in their vision. In others, the disease progresses faster and may lead to a loss of vision in both eyes. AMD is a common eye condition among people age 50 and older. It is a leading cause of vision loss in older adults. Two Forms of AMD There are two forms of age-related macular degeneration -- dry and wet.
Who is at risk for Age-related Macular Degeneration? ?	Risk Increases With Age AMD is most common in older people, but it can occur during middle age. The risk increases with age. Other Risk Factors Other risk factors include - Smoking - Obesity - Race. Whites are much more likely to lose vision from AMD than African-Americans. - Family history. People with a family history of AMD are at higher risk of getting the disease. - Gender. Women appear to be at greater risk than men. Smoking Obesity Race. Whites are much more likely to lose vision from AMD than African-Americans. Family history. People with a family history of AMD are at higher risk of getting the disease. Gender. Women appear to be at greater risk than men.
What are the symptoms of Age-related Macular Degeneration ?	AMD is detected during a comprehensive eye exam that includes a visual acuity test, a dilated eye exam, and tonometry. Tests for AMD - The visual acuity test is an eye chart test that measures how well you see at various distances. - In the dilated eye exam, drops are placed in your eyes to widen, or dilate, the pupils. Then, your eye care professional uses a special magnifying lens to examine your retina and optic nerve for signs of AMD and other eye problems. After the exam, your close-up vision may remain blurred for several hours. - With tonometry, an instrument measures the pressure inside the eye. Numbing drops may be applied to your eye for this test. The visual acuity test is an eye chart test that measures how well you see at various distances. In the dilated eye exam, drops are placed in your eyes to widen, or dilate, the pupils. Then, your eye care professional uses a special magnifying lens to examine your retina and optic nerve for signs of AMD and other eye problems. After the exam, your close-up vision may remain blurred for several hours. With tonometry, an instrument measures the pressure inside the eye. Numbing drops may be applied to your eye for this test. Your eye care professional also may do other tests to learn more about the structure and health of your eye. The Amsler Grid During an eye exam, you may be asked to look at an Amsler grid, shown here. You will cover one eye and stare at a black dot in the center of the grid. While staring at the dot, you may notice that the straight lines in the pattern appear wavy. You may notice that some of the lines are missing. These may be signs of AMD. Because dry AMD can turn into wet AMD at any time, you should get an Amsler grid from your eye care professional. You could then use the grid every day to evaluate your vision for signs of wet AMD. The Fluorescein Angiogram Test If your eye care professional believes you need treatment for wet AMD, he or she may suggest a fluorescein angiogram. In this test, a special dye is injected into your arm. Pictures are taken as the dye passes through the blood vessels in your eye. The test allows your eye care professional to identify any leaking blood vessels and recommend treatment.
What are the treatments for Age-related Macular Degeneration ?	If You Have Advanced AMD Once dry AMD reaches the advanced stage, no form of treatment can prevent vision loss. However, treatment can delay and possibly prevent intermediate AMD from progressing to the advanced stage. The National Eye Institute's Age-Related Eye Disease Study found that taking certain vitamins and minerals may reduce the risk of developing advanced AMD. Wet AMD can be treated with laser surgery, photodynamic therapy, and injections into the eye. None of these treatments is a cure for wet AMD. The disease and loss of vision may progress despite treatment. Laser Surgery Laser surgery uses a laser to destroy the fragile, leaky blood vessels. Only a small percentage of people with wet AMD can be treated with laser surgery. Laser surgery is performed in a doctor's office or eye clinic. The risk of new blood vessels developing after laser treatment is high. Repeated treatments may be necessary. In some cases, vision loss may progress despite repeated treatments. Photodynamic Therapy With photodynamic therapy, a drug called verteporfin is injected into your arm. It travels throughout the body, including the new blood vessels in your eye. The drug tends to stick to the surface of new blood vessels. Next, the doctor shines a light into your eye for about 90 seconds. The light activates the drug. The activated drug destroys the new blood vessels and leads to a slower rate of vision decline. Unlike laser surgery, verteporfin does not destroy surrounding healthy tissue. Because the drug is activated by light, you must avoid exposing your skin or eyes to direct sunlight or bright indoor light for five days after treatment. Photodynamic therapy is relatively painless. It takes about 20 minutes and can be performed in a doctor's office. Photodynamic therapy slows the rate of vision loss. It does not stop vision loss or restore vision in eyes already damaged by advanced AMD. Treatment results often are temporary. You may need to be treated again. Drug Treatment for Wet AMD Wet AMD can now be treated with new drugs that are injected into the eye (anti-VEGF therapy). Abnormally high levels of a specific growth factor occur in eyes with wet AMD and promote the growth of abnormal new blood vessels. This drug treatment blocks the effects of the growth factor. You will need multiple injections that may be given as often as monthly. The eye is numbed before each injection. After the injection, you will remain in the doctor's office for a while and your eye will be monitored. This drug treatment can help slow down vision loss from AMD and in some cases improve sight. If You Have Low Vision If you have lost some sight from AMD, ask your eye care professional about low vision services and devices that may help you make the most of your remaining vision. Many community organizations and agencies offer information about low vision counseling and training and other special services for people with visual impairments. Research on AMD The National Eye Institute is conducting and supporting a number of studies to learn more about AMD. For example, scientists are - studying the possibility of transplanting healthy cells into a diseased retina - evaluating families with a history of AMD to understand genetic and hereditary factors that may cause the disease - looking at certain anti-inflammatory treatments for the wet form of AMD studying the possibility of transplanting healthy cells into a diseased retina evaluating families with a history of AMD to understand genetic and hereditary factors that may cause the disease looking at certain anti-inflammatory treatments for the wet form of AMD This research should provide better ways to detect, treat, and prevent vision loss in people with AMD.
What is (are) Age-related Macular Degeneration ?	Age-related macular degeneration, or AMD, is a disease that blurs the sharp, central vision you need for straight-ahead activities such as reading, sewing, and driving. AMD affects the macula, the part of the eye that allows you to see fine detail. AMD causes no pain.
What is (are) Age-related Macular Degeneration ?	Wet AMD occurs when abnormal blood vessels behind the retina start to grow under the macula. With wet AMD, loss of central vision can occur quickly. Wet AMD is considered to be advanced AMD and is more severe than the dry form.
What is (are) Age-related Macular Degeneration ?	Dry AMD occurs when the light-sensitive cells in the macula slowly break down, gradually blurring central vision in the affected eye. As dry AMD gets worse, you may see a blurred spot in the center of your vision. Over time, as less of the macula functions, central vision in the affected eye can be lost. If you have vision loss from dry AMD in one eye only, you may not notice any changes in your overall vision. With the other eye seeing clearly, you can still drive, read, and see fine details. You may notice changes in your vision only if AMD affects both eyes. If you experience blurry vision, see an eye care professional for a comprehensive dilated eye exam.
What is (are) Age-related Macular Degeneration ?	Dry AMD has three stages -- early AMD, intermediate AMD, and advanced dry AMD. All of these may occur in one or both eyes. People with early dry AMD have either several small drusen or a few medium-sized drusen. Drusen are yellow deposits under the retina which often are found in people over age 50. People with early AMD have no symptoms and no vision loss. People with intermediate dry AMD have either many medium-sized drusen or one or more large drusen. Some people see a blurred spot in the center of their vision. More light may be needed for reading and other tasks. In addition to drusen, people with advanced dry AMD have a breakdown of light-sensitive cells and supporting tissue in the macula. This breakdown can cause a blurred spot in the center of your vision. Over time, the blurred spot may get bigger and darker, taking more of your central vision. You may have difficulty reading or recognizing faces until they are very close to you.
What is (are) Age-related Macular Degeneration ?	Drusen are yellow deposits under the retina. They often are found in people over age 50. Your eye care professional can detect drusen during a comprehensive dilated eye exam.
What causes Age-related Macular Degeneration ?	Drusen alone do not usually cause vision loss. In fact, scientists are unclear about the connection between drusen and AMD. They do know that an increase in the size or number of drusen raises a person's risk of developing either advanced dry AMD or wet AMD. These changes can cause serious vision loss.
What are the symptoms of Age-related Macular Degeneration ?	An early symptom of wet AMD is that straight lines appear wavy. If you notice this condition or other changes to your vision, contact your eye care professional at once. You need a comprehensive dilated eye exam.
What are the symptoms of Age-related Macular Degeneration ?	The most common symptom of dry AMD is slightly blurred vision. You may have difficulty recognizing faces. You may need more light for reading and other tasks. Dry AMD generally affects both eyes, but vision can be lost in one eye while the other eye seems unaffected. One of the most common early signs of dry AMD is drusen. Drusen are yellow deposits under the retina. They often are found in people over age 50. Your eye care professional can detect drusen during a comprehensive dilated eye exam.
Who is at risk for Age-related Macular Degeneration? ?	AMD is most common in older people, but it can occur during middle age. The risk increases with age. Other risk factors include smoking, obesity, white race, family history of AMD, and female gender.
What are the treatments for Age-related Macular Degeneration ?	Once dry AMD reaches the advanced stage, no form of treatment can prevent vision loss. However, treatment can delay and possibly prevent intermediate AMD from progressing to the advanced stage, in which vision loss occurs.
What is (are) Age-related Macular Degeneration ?	The AREDS formulation is a combination of antioxidants and zinc that is named for a study conducted by The National Eye Institute called the Age-Related Eye Disease Study, or AREDS. This study found that taking a specific high-dose formulation of antioxidants and zinc significantly reduced the risk of advanced AMD and its associated vision loss. Slowing AMD's progression from the intermediate stage to the advanced stage will save many people's vision.
What is (are) Age-related Macular Degeneration ?	The daily amounts used by the study researchers were 500 milligrams of vitamin C, 400 International Units of vitamin E, 15 milligrams of beta-carotene, 80 milligrams of zinc as zinc oxide, and 2 milligrams of copper as cupric oxide. Copper was added to the AREDS formulation containing zinc to prevent copper deficiency anemia, a condition associated with high levels of zinc intake.
How to prevent Age-related Macular Degeneration ?	There is no reason for those diagnosed with early stage AMD to take the AREDS formulation. The study did not find that the formulation helped those with early stage AMD. If you have early stage AMD, a comprehensive dilated eye exam every year can help determine if the disease is progressing. If early stage AMD progresses to the intermediate stage, discuss taking the formulation with your doctor.
What are the treatments for Age-related Macular Degeneration ?	Wet AMD can be treated with laser surgery, photodynamic therapy, and drugs that are injected into the eye. None of these treatments is a cure for wet AMD. The disease and loss of vision may progress despite treatment.
what research (or clinical trials) is being done for Age-related Macular Degeneration ?	The National Eye Institute scientists are - studying the possibility of transplanting healthy cells into a diseased retina - evaluating families with a history of AMD to understand genetic and hereditary factors that may cause the disease - looking at certain anti-inflammatory treatments for the wet form of AMD. studying the possibility of transplanting healthy cells into a diseased retina evaluating families with a history of AMD to understand genetic and hereditary factors that may cause the disease looking at certain anti-inflammatory treatments for the wet form of AMD. This research should provide better ways to detect, treat, and prevent vision loss in people with AMD.
What is (are) Age-related Macular Degeneration ?	National Eye Institute National Institutes of Health 2020 Vision Place Bethesda, MD 20892-3655 301-496-5248 E-mail: 2020@nei.nih.gov www.nei.nih.gov Association for Macular Diseases 210 East 64th Street, 8th Floor New York, NY 10021-7471 212-605-3719 Foundation Fighting Blindness Executive Plaza 1, Suite 800 11435 Cronhill Drive Owings Mill, MD 21117-2220 1-888-394-3937 410-785-1414 Macular Degeneration Partnership 6222 Wilshire Boulevard, Suite 260 Los Angeles, CA 90048 1-888-430-9898 310-623-4466 www.amd.org
What is (are) COPD ?	Chronic obstructive pulmonary disease, or COPD, is a progressive lung disease in which the airways of the lungs become damaged, making it hard to breathe. You may also have heard COPD called other names, like emphysema or chronic bronchitis. In people who have COPD, the airways that carry air in and out of the lungs are partially blocked, making it difficult to get air in and out. COPD is a major cause of death and illness throughout the world. It kills more than 120,000 Americans each year. That's one death every 4 minutes. How COPD Affects Airways The "airways" are the tubes that carry air in and out of the lungs through the nose and mouth. The airways of the lungs branch out like an upside-down tree. At the end of each branch are many small, balloon-like air sacs. In healthy people, the airways and air sacs are elastic (stretchy). When you breathe in, each air sac fills up with air, like a small balloon, and when you breathe out, the balloon deflates and the air goes out. In people with COPD, the airways and air sacs lose their shape and become floppy. Less air gets in and less air goes out of the airways because - The airways and air sacs lose their elasticity like an old rubber band. - The walls between many of the air sacs are destroyed. - The walls of the airways become thick and inflamed or swollen. - Cells in the airways make more mucus or sputum than usual, which tends to clog the airways. The airways and air sacs lose their elasticity like an old rubber band. The walls between many of the air sacs are destroyed. The walls of the airways become thick and inflamed or swollen. Cells in the airways make more mucus or sputum than usual, which tends to clog the airways. COPD Develops Slowly, Has No Cure When COPD is severe, shortness of breath and other symptoms of COPD can get in the way of even the most basic tasks, such as doing light housework, taking a walk, even washing and dressing. COPD develops slowly, and it may be many years before you notice symptoms like feeling short of breath. Most of the time, COPD is diagnosed in middle-aged or older people. There is no cure for COPD. The damage to your airways and lungs cannot be reversed, but there are things you can do to control the disabling effects of the disease. COPD is not contagious. You cannot catch it from someone else.
What causes COPD ?	Smoking Most cases of COPD develop over time, from breathing in fumes and other things that irritate the lungs. Some of the things that put you at risk for COPD include smoking, environmental exposure, and genetic factors. Cigarette smoking is the most common cause of COPD in the United States (either current or former smokers). Pipe, cigar, and other types of tobacco smoking can also cause COPD, especially if the smoke is inhaled. Environmental Exposure COPD can also occur in people who have had long-term exposure to things that can irritate your lungs, like chemical fumes, or dust from the environment or workplace. Heavy or long-term exposure to secondhand smoke or other air pollutants may also contribute to COPD even if you have never smoked or had long-term exposure to harmful pollutants. Secondhand smoke is smoke in the air from other people smoking. Genetic Factors In a small number of people, COPD is caused by a genetic condition known as alpha-1 antitrypsin, or AAT, deficiency. 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. While very few people know if they have AAT deficiency, it is estimated that about 1 in every 1,600 people to about 1 in every 5,000 people have it. People with AAT deficiency can get COPD even if they have never smoked or had long-term exposure to harmful pollutants. Asthma 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.
How to prevent COPD ?	If you have COPD, you can take these steps to prevent complications and control the disabling effects of the disease. - Quit smoking. - Avoid exposure to pollutants and lung irritants. - Take precautions against the flu. - Talk to your doctor about the flu and pneumonia vaccines. - See your doctor on a regular basis. - Follow your treatments for COPD exactly as your doctor prescribes. Quit smoking. Avoid exposure to pollutants and lung irritants. Take precautions against the flu. Talk to your doctor about the flu and pneumonia vaccines. See your doctor on a regular basis. Follow your treatments for COPD exactly as your doctor prescribes. Quit Smoking If you smoke, the most important thing you can do to prevent more lung damage is to stop smoking. Quitting can help prevent complications and slow the progress of the disease. It is also important to stay away from people who smoke and places where you know there will be smokers. To help you quit, there are many online resources and several new aids available from your doctor or health care provider. The National Cancer Institute (NCI) has information on smoking cessation. Visit SmokeFree.gov , or check out NCI's Clear Horizons, a quit smoking guide for people 50+. You can also visit The American Lung Association, or call 1-800-QUIT NOW (1-800-784-8669). Avoid Exposure to Pollutants and Lung Irritants Try to stay away from other things that could irritate your lungs, like dust and strong fumes. Stay indoors when the outside air quality is poor. You should also stay away from places where there might be cigarette smoke. Take Precautions Against the Flu The flu (influenza) can cause serious problems for people who have COPD. Do your best to avoid crowds during flu season. In addition to avoiding people with the flu, remembering to wash and sanitize your hands can be one of the best ways to guard against getting sick. Talk to Your Doctor About the Flu (influenza) and Pneumonia Vaccines Talk with your doctor about getting a yearly flu shot and whether and when you should get the pneumonia vaccine. Flu shots can reduce your risk of getting the flu, and the pneumonia vaccine lowers your risk for pneumococcal pneumonia (NU-mo-KOK-al nu-MO-ne-ah) and its complications. Both of these illnesses are major health risks for people who have COPD. See Your Doctor Regularly See your doctor or health care provider regularly even if you are feeling fine. Make a list of your breathing symptoms and think about any activities that you can no longer do because of shortness of breath. Be sure to bring a list of all the medicines you are taking to each office visit. Follow Your Treatments 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.
What are the symptoms of COPD ?	Common Symptoms The most common symptoms of COPD are - a cough that does not go away - coughing up lots of sputum (mucus). a cough that does not go away coughing up lots of sputum (mucus). These symptoms often start years before the flow of air in and out of the lungs is reduced. Not everyone who has a cough and sputum goes on to develop COPD. Other common symptoms of COPD include - shortness of breath while doing activities you used to be able to do - wheezing (a whistling sound when you breathe) - tightness in the chest. shortness of breath while doing activities you used to be able to do wheezing (a whistling sound when you breathe) tightness in the chest. Getting a Diagnosis Your doctor will diagnose COPD based on your signs and symptoms, your medical and family histories, and test results. If your doctor thinks you may have COPD, he or she will examine you, listen to your lungs, and ask you questions about your medical history, and what lung irritants you may have been around for long periods of time. The Spirometry Test To confirm a diagnosis of COPD, your doctor will use a breathing test called spirometry. The test is easy and painless and shows how much air you can breathe out and measures how fast you can breathe it out. In a spirometry test, you breathe hard into a large hose connected to a machine called a spirometer. When you breathe out, the spirometer measures how much air your lungs can hold and how fast you can blow air out of your lungs. 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. Determining COPD Severity Based on this test, your doctor can determine if you have COPD and how severe it is. There are four levels of severity for COPD: - people at risk for COPD - people with mild COPD - people with moderate COPD - people with severe COPD. people at risk for COPD people with mild COPD people with moderate COPD people with severe COPD. People at risk for developing COPD have a normal breathing test and mild symptoms such as chronic cough and sputum (mucus) production. People with mild COPD have mild breathing limitation. Symptoms may include a chronic cough and sputum (mucus) production. At this stage, you may not be aware that airflow in your lungs is reduced. People with moderate COPD have a breathing test that shows worsening airflow blockages. Symptoms may be worse than with mild COPD and you may experience shortness of breath while working hard, walking fast, or doing brisk activity. At this stage, you would seek medical attention. People with severe COPD have a breathing test that shows severe limitation of the airflow. People with severe COPD will be short of breath after just a little activity. In very severe COPD, complications like respiratory failure or signs of heart failure may develop. At this stage, quality of life is impaired and worsening symptoms may be life-threatening. Other Tests Other tests are used to rule out other causes of the symptoms. - Bronchodilator reversibility testing uses the spirometer and medications called bronchodilators to assess whether breathing problems may be caused by asthma. Bronchodilator reversibility testing uses the spirometer and medications called bronchodilators to assess whether breathing problems may be caused by asthma. - A chest X-ray or a chest CT scan may also be ordered by your doctor. 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. A chest X-ray or a chest CT scan may also be ordered by your doctor. 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 is another test that is used. This blood test shows the oxygen level in the blood to see how severe your COPD is and whether you need oxygen therapy. An arterial blood gas test is another test that is used. This blood test shows the oxygen level in the blood to see how severe your COPD is and whether you need oxygen therapy.
What is (are) COPD ?	Chronic obstructive pulmonary disease, or COPD, is a progressive lung disease in which the airways of the lungs become damaged, making it harder to breathe. With COPD, airways become blocked, making it harder to get air in and out.
What causes COPD ?	COPD is a disease that slowly worsens over time, especially if you continue to smoke. If you have COPD, you are more likely to have lung infections, which can be fatal. If the lungs are severely damaged, the heart may be affected. A person with COPD dies when the lungs and heart are unable to function and get oxygen to the body's organs and tissues, or when a complication, such as a severe infection, occurs. Treatment for COPD may help prevent complications, prolong life, and improve a person's quality of life.
What causes COPD ?	Cigarette smoking is the most common cause of COPD. Most people with COPD are smokers or have been smokers in the past. Breathing in other fumes and dusts over long periods of time can also lead to COPD. Pipe, cigar, and other types of tobacco smoking can cause COPD, especially if the smoke is inhaled. Exposure to secondhand smoke can play a role in causing COPD. Most people with COPD are at least 40 years old or around middle age when symptoms start.
What are the symptoms of COPD ?	The most common symptoms of COPD are a cough that does not go away and coughing up a lot of sputum (mucus). These symptoms may occur years before lung damage has reduced the flow of air in and out of the lungs. Other symptoms of COPD include shortness of breath, especially with exercise; wheezing (a whistling sound when you breathe); and tightness in the chest.
How to diagnose COPD ?	To confirm a COPD diagnosis, a doctor will use a breathing test called spirometry. The test is easy and painless. It shows how well the lungs are working. The spirometer measures how much air the lungs can hold and how fast air is blown out of the lungs. Other tests, such as bronchodilator reversibility testing, a chest X-ray, and arterial blood gas test, may be ordered.
What are the treatments for COPD ?	Treatment for COPD can be different for each person and is based on whether symptoms are mild, moderate or severe. Treatments include medication, pulmonary or lung rehabilitation, oxygen treatment, and surgery. There are also treatments to manage complications or a sudden onset of symptoms.
How to diagnose COPD ?	If you have not been exercising regularly, you should get the advice of your doctor before starting. The symptoms of COPD are different for each person. People with mild COPD may not have much difficulty walking or exercising. As the symptoms of COPD get worse over time, a person may have more difficulty with walking and exercising. You should talk to your doctor about exercising and whether you would benefit from a pulmonary or lung rehabilitation program.
How to prevent COPD ?	If you smoke, the most important thing you can do to prevent more lung damage is to stop smoking. It is also important to stay away from people who smoke and places where you know there will be smokers. Avoid exposure to pollutants like dust, fumes, and poor air quality, and take precautions to prevent flu and pneumonia. Following your doctor's instructions with medications and rehabilitative treatment can help alleviate COPD symptoms and control the disabling effects of the disease.
What are the treatments for COPD ?	Bronchodilators and inhaled steroids are two medications used to treat COPD. Bronchodilators work by relaxing the muscles around the airways, opening them and making it easier to breathe. People with mild COPD take bronchodilators using an inhaler only when needed. Those with moderate or severe COPD may need more regular treatment. Inhaled steroids also are used for people with moderate or severe COPD in order to reduce swelling in the airways.
What are the symptoms of COPD ?	Call your doctor right away if your symptoms worsen suddenly. People with COPD may have symptoms that suddenly get worse. When this happens, you have a much harder time catching your breath. Symptoms that worsen suddenly can include sudden chest tightness, more coughing, a change in your sputum (mucus), or fever. Your doctor will look at things that may be causing these sudden symptoms. Sometimes the symptoms are caused by a lung infection.
What is (are) COPD ?	More information on COPD is available at: What is COPD? and at the Learn More, Breathe Better Campaign For information on quitting smoking, visit http://www.surgeongeneral.gov/tobacco/ or Smokefree.gov. For information on the H1N1 flu and COPD, go to The Centers for Disease Control and Prevention.
What is (are) Dry Eye ?	Poor Tear Production Dry eye occurs when the eye does not produce tears properly, or when the tears are of poor quality and dry up quickly. The eyes need tears for overall eye health and clear vision. Dry eye can last a short time or it can be an ongoing condition. It can include a variety of symptoms, such as discomfort and pain. Your eyes may sting and burn and you may have redness and a sandy or gritty feeling, as if something is in your eye. You may have blurry vision and your eyes may feel tired. Having dry eyes can make it harder to do some activities, such as using a computer or reading for a long period of time, and it can make it hard to be in dry places, such as on an airplane. Tears and Eye Health Tears are necessary for overall eye health and clear vision. The eye constantly makes tears to bathe, nourish, and protect the cornea. The cornea is the clear, dome-shaped outer surface that covers the eye in front of the iris, which is the colored part of the eye. The eye also makes tears in response to emergencies, such as a particle of dust in the eye, an infection or irritation of the eye, or an onset of strong emotions. Tears keep the eye moist, and wash away dust and debris. They also help protect the eye from infections. Tears are made of proteins (including growth factors), body salts, and vitamins that maintain the health of the eye surface and prevent infection. Tear Components Tears have three major components. - an outer, oily, fat layer produced by the meibomian glands (located in the eyelids) - a middle, watery, layer produced by the lacrimal glands (located just above the upper, outer corner of the eye) - an inner, mucous layer produced by goblet cells (located within a thin clear layer which covers the white part of the eye and the inner surface of the eyelids called the conjunctiva). an outer, oily, fat layer produced by the meibomian glands (located in the eyelids) a middle, watery, layer produced by the lacrimal glands (located just above the upper, outer corner of the eye) an inner, mucous layer produced by goblet cells (located within a thin clear layer which covers the white part of the eye and the inner surface of the eyelids called the conjunctiva). When the lacrimal glands do not make enough tears, dry eye can result. Any disease process that changes the components of tears can make them unhealthy and result in dry eye. Type of Dry Eye There are two types of dry eye: aqueous tear-deficient dry eye and evaporative dry eye. Aqueous tear-deficient dry eye is a disorder in which the tear glands do not produce enough of the watery component of tears to maintain a healthy cornea. Evaporative dry eye may result from inflammation of the meibomian glands, located in the eyelids. These glands make the oily part of tears that slows evaporation and keeps the tears stable. Most people with dry eye will not have serious problems, but severe dry eye may lead to inflammation, ulcers, or scars on the cornea, and some loss of vision. Permanent loss of vision from dry eye is uncommon.
What causes Dry Eye ?	Many factors can lead to dry eye, including aging, medications, problems with eyelid function, disease, some types of surgery, environmental factors, and allergies. Many Older People Have Dry Eye Elderly people often have dryness of the eyes, but dry eye can occur at any age. Nearly five million Americans 50 years of age and older are estimated to have dry eye. Of these, more than three million are women and more than one and a half million are men. Tens of millions more have less severe symptoms. Dry eye is more common after menopause. Women who experience menopause prematurely are more likely to have eye surface damage from dry eye. Medications Dry eye can be a side effect of some medications, including antihistamines, nasal decongestants, tranquilizers, certain blood pressure medicines, Parkinson's medications, and some anti-depressants. Women who are on hormone replacement therapy may experience dry eye symptoms. Eyelid Function Eyelid function can also be a factor in dry eye. Diseases that affect the eyelid, such as meibomian gland dysfunction, can also cause dry eye. Dry eye may also occur from exposure keratitis, in which the eyelids do not close properly during normal blinking or sleep. Skin diseases on or around the eyelids can result in dry eye. Infrequent blinking associated with staring at computer or video screens also may lead to dry eye symptoms. Systemic Diseases Certain diseases can cause dry eye. Chronic inflammation of the conjunctiva, or the lacrimal glands, can cause dry eye. Immune system disorders such as Sjgren's syndrome, systemic lupus erythematosus, and rheumatoid arthritis also can cause dry eye. Sjgren's syndrome leads to inflammation and dryness of the mouth, eyes, and other mucous membranes. Thyroid disease, which can sometimes cause the eye to bulge out, can also lead to dry eye by increasing the surface area of the eye exposed to the environment. Surgeries Some types of surgery can lead to dry eye. For example, dry eye can develop after the refractive surgery known as LASIK. These symptoms generally last three to six months, but may last longer in some cases. Dry eye can also occur as a result of cosmetic surgery that widens the eyelids too much and increases the surface area of the eye exposed to the environment. Environment Environmental exposure to irritants such as chemical fumes and tobacco smoke, or drafts from air conditioning or heating can cause dry eye. Wearing contact lenses over a long period of time can lead to a loss of feeling in the cornea and this can cause dry eye. Allergies also can be associated with dry eye.
What are the symptoms of Dry Eye ?	Symptoms of Dry Eye Dry eye symptoms may include any of the following. - stinging or burning of the eye - a sandy or gritty feeling as if something is in the eye - episodes of excess tears following very dry eye periods - a stringy discharge from the eye - pain and redness of the eye - episodes of blurred vision - heavy eyelids - inability to cry when emotionally stressed - uncomfortable contact lenses - decreased ability to read, work on the computer, or do any activity that requires you to use your eyes for long periods of time - eye fatigue. stinging or burning of the eye a sandy or gritty feeling as if something is in the eye episodes of excess tears following very dry eye periods a stringy discharge from the eye pain and redness of the eye episodes of blurred vision heavy eyelids inability to cry when emotionally stressed uncomfortable contact lenses decreased ability to read, work on the computer, or do any activity that requires you to use your eyes for long periods of time eye fatigue. If you have symptoms that you think could result from dry eye, consult an eye care professional to get an accurate diagnosis of the condition and begin treatment. Diagnosing Dry Eye Diagnosis of dry eye requires a comprehensive eye evaluation. Your eye care professional will ask you about your symptoms, your health (conditions for which you are treated, medications that you take), your eye history (use of contact lenses, past refractive or other eye surgery), and aspects of your daily environment (exposure to environmental allergens or occupational hazards). He or she will test your vision, check your eye pressure, examine your eyelids and front eye structures, and, if necessary, may dilate the pupils to examine the inside of the eye. Your eye care professional may order a tearing test to find out if you are making enough tears to keep your eyes moist. In one type of test, called a Schirmers test, the doctor may measure your tear production by placing strips of blotting paper under your lower eyelids, usually done after numbing the eye with anesthetic drops. After a few minutes, the doctor removes the strips and measures the amount of tear production.
What are the treatments for Dry Eye ?	Self Care - Try over-the-counter remedies such as artificial tears, gels, gel inserts, and ointments. They offer temporary relief and can provide an important replacement of naturally produced tears. - Avoid remedies containing preservatives if you need to apply them more than four times a day or preparations with chemicals that cause blood vessels to constrict. - Wearing glasses or sunglasses that fit close to the face (wrap around shades) or that have side shields can help slow tear evaporation from the eye surfaces. - Indoors, an air cleaner to filter dust and other particles can help your eyes feel more comfortable. A humidifier also may help by adding moisture to the air. - Avoid dry conditions. - Allow your eyes to rest when doing activities that require you to use your eyes for long periods of time. Use lubricating eye drops while performing these tasks. Try over-the-counter remedies such as artificial tears, gels, gel inserts, and ointments. They offer temporary relief and can provide an important replacement of naturally produced tears. Avoid remedies containing preservatives if you need to apply them more than four times a day or preparations with chemicals that cause blood vessels to constrict. Wearing glasses or sunglasses that fit close to the face (wrap around shades) or that have side shields can help slow tear evaporation from the eye surfaces. Indoors, an air cleaner to filter dust and other particles can help your eyes feel more comfortable. A humidifier also may help by adding moisture to the air. Avoid dry conditions. Allow your eyes to rest when doing activities that require you to use your eyes for long periods of time. Use lubricating eye drops while performing these tasks. If symptoms of dry eye persist, consult an eye care professional to get an accurate diagnosis of the condition and begin treatment to avoid permanent damage. Goal of Treatment Dry eye can be a temporary or ongoing condition, so treatments can be short term or may extend over long periods of time. The goal of treatment is to keep the eyes moist and relieve symptoms. (This short video discusses causes, symptoms, and treatments for dry eye.) Talk to your doctor to rule out other conditions that can cause dry eye, such as Sjgren's syndrome. You may need to treat these conditions. If dry eye results from taking a medication, your doctor may recommend switching to a medication that does not cause dry eye as a side effect. Types of Treatments - Medication. Cyclosporine, an anti-inflammatory medication, is a prescription eye drop available to treat certain kinds of dry eye. In people with certain kinds of dry eye, it may decrease damage to the cornea, increase basic tear production, and reduce symptoms of dry eye. It may take three to six months of twice-a-day dosages for the medication to work. Some patients with severe dry eye may need to use corticosteroid eye drops that decrease inflammation. - Nutritional Supplements. In some patients with dry eye, supplements of omega-3 fatty acids (especially ones called DHA and EPA) may decrease symptoms of irritation. Talk with your eye care professional or your primary medical doctor about whether this is an option for you. - Lenses. If dry eye is a result of wearing contact lens for too long, your eye care practitioner may recommend another type of lens or reducing the number of hours you wear your lenses. In the case of severe dry eye, your eye care professional may advise you not to wear contact lenses at all. - Punctal plugs. Another option to increase the available tears on the eye surface is to plug the small circular openings at the inner corners of the eyelids where tears drain from the eye into the nose. Lacrimal plugs, also called punctal plugs, can be inserted painlessly by an eye care professional. These plugs are made of silicone or collagen. These plugs can be temporary or permanent. - Punctal cautery. In some cases, a simple surgery called punctal cautery is recommended to permanently close the drainage holes. The procedure works similarly to installing punctal plugs, but cannot be reversed. Medication. Cyclosporine, an anti-inflammatory medication, is a prescription eye drop available to treat certain kinds of dry eye. In people with certain kinds of dry eye, it may decrease damage to the cornea, increase basic tear production, and reduce symptoms of dry eye. It may take three to six months of twice-a-day dosages for the medication to work. Some patients with severe dry eye may need to use corticosteroid eye drops that decrease inflammation. Nutritional Supplements. In some patients with dry eye, supplements of omega-3 fatty acids (especially ones called DHA and EPA) may decrease symptoms of irritation. Talk with your eye care professional or your primary medical doctor about whether this is an option for you. Lenses. If dry eye is a result of wearing contact lens for too long, your eye care practitioner may recommend another type of lens or reducing the number of hours you wear your lenses. In the case of severe dry eye, your eye care professional may advise you not to wear contact lenses at all. Punctal plugs. Another option to increase the available tears on the eye surface is to plug the small circular openings at the inner corners of the eyelids where tears drain from the eye into the nose. Lacrimal plugs, also called punctal plugs, can be inserted painlessly by an eye care professional. These plugs are made of silicone or collagen. These plugs can be temporary or permanent. Punctal cautery. In some cases, a simple surgery called punctal cautery is recommended to permanently close the drainage holes. The procedure works similarly to installing punctal plugs, but cannot be reversed.
What is (are) Dry Eye ?	Dry eye occurs when the eye does not produce tears properly, or when the tears are of poor quality and dry up quickly. The eyes need tears for overall eye health and clear vision. Dry eye can last a short time or it can be an ongoing condition. It can include a variety of symptoms, such as discomfort and pain. Your eyes may sting and burn and you may have redness and a sandy or gritty feeling, as if something is in your eye. You may have blurry vision and you may feel eye fatigue. Having dry eyes can make it harder to do some activities, such as using a computer or reading for a long period of time, and it can make it hard to be in dry places, such as on an airplane. (This short video discusses causes, symptoms, and treatments for dry eye.)
What is (are) Dry Eye ?	There are two types of dry eye: aqueous tear-deficient dry eye and evaporative dry eye. Aqueous tear-deficient dry eye is a disorder in which the tear glands do not produce enough of the watery component of tears to maintain a healthy eye surface, called the cornea. Evaporative dry eye may result from inflammation of the meibomian glands, located in the eyelids. These glands make the oily part of tears that slows evaporation and keeps the tears stable. Dry eye can be associated with - inflammation of the surface of the eye (cornea), the lacrimal gland, or the conjunctiva (the surface layer of tissue that lines the eyelids and covers the front part of the eye) - any disease process that alters the components of the tears - an increase in the surface of the eye, as in thyroid disease when the eye bulges forward - cosmetic surgery, if the eyelids are opened too widely. inflammation of the surface of the eye (cornea), the lacrimal gland, or the conjunctiva (the surface layer of tissue that lines the eyelids and covers the front part of the eye) any disease process that alters the components of the tears an increase in the surface of the eye, as in thyroid disease when the eye bulges forward cosmetic surgery, if the eyelids are opened too widely.
What causes Dry Eye ?	Most people with dry eye will not have serious problems, but severe dry eye may lead to inflammation, ulcers, or scars on the cornea, and some loss of vision. Permanent loss of vision from dry eye is uncommon.
What is (are) Dry Eye ?	The cornea is the clear, dome-shaped outer surface that covers the eye in front of the iris, which is the colored part of the eye. The cornea helps protect the rest of the eye from germs, dust, and other harmful matter. The cornea is a highly organized, clear structure made up of a group of cells and proteins precisely arranged in layers, but it has no blood vessels to nourish or protect it against infection. Instead, it gets its nourishment from the tears and the watery fluid (aqueous humor) that fill the chamber behind it.
What causes Dry Eye ?	If your eyes dont make enough tears it can cause dry eye. Anything that changes the components of tears can cause dry eye. Many factors can lead to dry eye, including aging, medications, problems with eyelid function, disease, some types of eye surgery, environmental factors, and allergies.
What are the symptoms of Dry Eye ?	Dry eye symptoms may include any of the following. - stinging or burning of the eye - a sandy or gritty feeling as if something is in the eye - episodes of excess tears following very dry eye periods - a stringy discharge from the eye - pain and redness of the eye - episodes of blurred vision - heavy eyelids - inability to cry when emotionally stressed - uncomfortable contact lenses - decreased ability to read, work on the computer, or do any activity that requires you to use your eyes for long periods of time - eye fatigue. stinging or burning of the eye a sandy or gritty feeling as if something is in the eye episodes of excess tears following very dry eye periods a stringy discharge from the eye pain and redness of the eye episodes of blurred vision heavy eyelids inability to cry when emotionally stressed uncomfortable contact lenses decreased ability to read, work on the computer, or do any activity that requires you to use your eyes for long periods of time eye fatigue. If you have symptoms that you think could result from dry eye, consult an eye care professional to get an accurate diagnosis of the condition and begin treatment.
How to diagnose Dry Eye ?	Diagnosis of dry eye requires a comprehensive eye evaluation. Your eye care professional will ask you about your symptoms, your overall health (conditions for which you are treated, medications that you take), your eye history (use of contact lenses, past refractive or other eye surgery), and aspects of your daily environment (exposure to environmental allergens or occupational hazards). He or she will test your vision, check your eye pressure, examine your eyelids and front eye structures, and if necessary may dilate the pupils to examine the inside of the eye. Your eye care professional may order a tearing test to find out if your eyes are producing enough tears to keep them moist. In one type of test, called a Schirmers test, the doctor may measure your tear production by placing strips of blotting paper under your lower eyelids, usually done after numbing the eye with anesthetic drops. After a few minutes, the doctor removes the strips and measures the amount of tear production.
What are the treatments for Dry Eye ?	Dry eye can be a temporary or ongoing condition, so treatments can be short term or may extend over long periods of time. The goal of treatment is to keep the eyes moist and relieve symptoms. Talk to your doctor to rule out other conditions that can cause dry eye, such as Sjgren's syndrome. You may need to treat these conditions. If dry eye results from taking a medication, your doctor may recommend switching to a medication that does not cause dry eye as a side effect. Here are treatments for dry eye. Medication. Cyclosporine, an anti-inflammatory medication, is a prescription eye drop available to treat certain kinds of dry eye. In people with certain kinds of dry eye, it may decrease damage to the cornea, increase basic tear production, and reduce symptoms of dry eye. It may take three to six months of twice-a-day dosages for the medication to work. Some patients with severe dry eye may need to use corticosteroid eye drops that decrease inflammation under close observation by an eye care professional. Nutritional Supplements. In some patients with dry eye, supplements of omega-3 fatty acids (especially DHA and EPA) may decrease symptoms of irritation. Talk with your eye care professional or your primary medical doctor about whether this is an option for you. Lenses. If dry eye is a result of wearing contact lens for too long, your eye care practitioner may recommend another type of lens or reducing the number of hours you wear your lenses. In the case of severe dry eye, your eye care professional may advise you not to wear contact lenses at all. Punctal plugs. Another option to increase the available tears on the eye surface is to plug the drainage holes, small circular openings at the inner corners of the eyelids where tears drain from the eye into the nose. Lacrimal plugs, also called punctal plugs, can be inserted painlessly by an eye care professional. These plugs are made of silicone or collagen. These plugs can be temporary or permanent. Punctal cautery. In some cases, a simple surgery called punctal cautery is recommended to permanently close the drainage holes. The procedure works similarly to installing punctal plugs, but cannot be reversed.
What is (are) Dry Eye ?	National Eye Institute National Institutes of Health 2020 Vision Place Bethesda, MD 20892-3655 301-496-5248 E-mail: 2020@nei.nih.gov www.nei.nih.gov
What is (are) Leukemia ?	Leukemia is a cancer of the blood cells. It is the most common type of blood cancer and affects 10 times as many adults as children. Most people diagnosed with leukemia are over 50 years old. Leukemia Starts in Bone Marrow Leukemia usually begins in the bone marrow, the soft material in the center of most bones where blood cells are formed. The bone marrow makes three types of blood cells, and each type has a special function. - White blood cells fight infection and disease. - Red blood cells carry oxygen throughout the body. - Platelets help control bleeding by forming blood clots. White blood cells fight infection and disease. Red blood cells carry oxygen throughout the body. Platelets help control bleeding by forming blood clots. In people with leukemia, the bone marrow produces abnormal white blood cells, called leukemia cells. At first, leukemia cells function almost normally. But over time, as more leukemia cells are produced, they may crowd out the healthy white blood cells, red blood cells, and platelets. This makes it difficult for the blood to carry out its normal functions. There are four common types of adult leukemia. Two are chronic, meaning they get worse over a longer period of time. The other two are acute, meaning they get worse quickly. - chronic lymphocytic leukemia - chronic myeloid leukemia - acute myeloid leukemia - acute lymphocytic leukemia chronic lymphocytic leukemia chronic myeloid leukemia acute myeloid leukemia acute lymphocytic leukemia Chronic and Acute Leukemia Chronic lymphocytic leukemia, chronic myeloid leukemia, and acute myeloid leukemia are diagnosed more often in older adults. Of these, chronic lymphocytic leukemia is the most common. Acute lymphocytic leukemia is found more often in children. The symptoms for each type of leukemia differ but may include fevers, frequent infections, fatigue, swollen lymph nodes, weight loss, and bleeding and bruising easily. However, such symptoms are not sure signs of leukemia. An infection or another problem also could cause these symptoms. Only a doctor can diagnose and treat the problem. (Watch the video to learn how the rates of leukemia diagnosis vary by age. To enlarge the video, click the brackets in the lower right-hand corner. To reduce the video, press the Escape (Esc) button on your keyboard.) Learn more about chronic lymphocytic leukemia. Learn more about acute myeloid leukemia. Other Cancers That Affect Blood Cells Myeloma and lymphoma are other types of cancer that affect blood cells, but these cancer cells are rarely found in the blood stream. Myeloma is the second most common form of blood cancer, and it affects plasma cells, a type of white blood cell that is found in the bone marrow. Lymphoma accounts for about five percent of all the types of cancer in the United States. It starts in the lymphatic system, which is part of the body's immune system. Both myeloma and lymphoma are more common among older adults and occur more often in men than women. Learn more about myeloma. Many Treatments Are Available There are many methods available to treat acute and chronic leukemia, and there are many new treatments being developed that are rapidly changing how numerous types of leukemia are treated. The types of treatments depend on the specific disease and how best to treat it. Some people receive a combination of treatments. Acute leukemia usually needs to be treated right away. But there are many different kinds of acute leukemia. Some respond well to treatment and can be cured in some cases, while others are more difficult to treat. Treatment for chronic leukemia can often control the disease and its symptoms and there are new treatments being developed that may prolong survival. Also, there are several treatments now available for chronic myeloid leukemia that can control the disease for a long time.
Who is at risk for Leukemia? ?	In many cases, no one knows why some people develop leukemia and others do not. However, scientists have identified some risk factors for the disease. A risk factor is anything that increases a person's chances of developing a disease. Most people who have known risk factors do not get leukemia, while many who do get the disease have none of these risk factors. Risk Factors Studies have identified the following risk factors for leukemia. - older age - male - white - working with certain chemicals - smoking - exposure to very high levels of radiation - certain health conditions - past treatment with chemotherapy or radiation therapy. older age male white working with certain chemicals smoking exposure to very high levels of radiation certain health conditions past treatment with chemotherapy or radiation therapy. More than 65 percent of people diagnosed with leukemia are over 55. Disorders and Genetic Diseases Certain disorders and genetic diseases, such as Down syndrome, may increase the risk of leukemia. About 3 out of 10 people with a blood disorder known as myelodysplastic syndrome develop acute myeloid leukemia. In this disorder, as in leukemia, abnormal cells are formed in the bone marrow and too few healthy blood cells enter the bloodstream. Radiation Exposure People exposed to very high levels of radiation, such as the atomic bomb blast in Hiroshima, Japan or nuclear power plant accidents, also are at risk of developing leukemia. Studies of atomic blasts have estimated that survivors have a five and a half times greater risk of developing leukemia than the general public. Cancer Treatments Chemotherapy and radiation therapy have been helpful to a lot of people in the treatment of many forms of cancer, and indeed are often lifesaving. However, these therapies have been linked to the development of second cancers, including leukemia, many years after treatment, particularly in people who received intensive therapy early in their lives. Chemotherapy for a first cancer is a stronger risk factor for developing leukemia later than is radiation therapy. The combination of chemotherapy and radiation can significantly increase the risk of leukemia after a first cancer. Powerful cancer-fighting chemotherapy drugs, known as alkylating agents and epipodophyllotoxins, have been associated with leukemia. The dose given and length of treatment as well as other factors may contribute to a person's risk of developing leukemia. Acute myeloid leukemia is the most common type of cancer that has been linked to chemotherapy treatment. Radiation therapy may increase a person's chance of developing leukemia. Several factors influence this risk, such as the dose of radiation administered. A person's age at the time of therapy does not seem to be a risk factor for leukemia. Recently, researchers have gained a much greater understanding of the risk of second cancers due to earlier treatment exposures. They have been able to limit the effective doses given in primary cases so as to reduce the risk of a recurrence or second cancer.
What are the symptoms of Leukemia ?	During the early stages of leukemia, there may be no symptoms. Many of the symptoms of leukemia don't become apparent until a large number of normal blood cells are crowded out by leukemia cells. Symptoms of Chronic and Acute Leukemia In chronic leukemia, symptoms develop gradually and, in the beginning, are generally not as severe as in acute leukemia. Chronic leukemia is usually found during a routine doctor's exam before symptoms are present. When symptoms appear, they generally are mild at first and gradually get worse, but sometimes they don't worsen until many years after an initial diagnosis. Recently, researchers discovered that abnormal white blood cells can be present in the blood of chronic lymphocytic leukemia patients a number of years before a diagnosis. This finding may lead to a better understanding of the cellular changes that occur in the earliest stages of the disease and how the disease progresses. In acute leukemia, symptoms usually appear and get worse quickly. People with this disease usually go to their doctor because they feel sick. White Blood Cell Levels May Be High People with leukemia may have very high levels of white blood cells, but because the cells are abnormal, they are unable to fight infection. Therefore, patients may develop frequent fevers or infections. A shortage of red blood cells, called anemia, can cause a person to feel tired. Not having enough blood platelets may cause a person to bleed and bruise easily. Some symptoms depend on where leukemia cells collect in the body. Leukemia cells can collect in many different tissues and organs, such as the digestive tract, kidneys, lungs, lymph nodes, or other parts of the body, including the eyes, brain, and testicles. Other Common Symptoms Other common symptoms of leukemia include headache, weight loss, pain in the bones or joints, swelling or discomfort in the abdomen (from an enlarged spleen), and swollen lymph nodes, especially in the neck or armpit. Symptoms of acute leukemia may include vomiting, confusion, loss of muscle control, and seizures. Some of the symptoms of leukemia are similar to those caused by the flu or other common diseases, so these symptoms are not sure signs of leukemia. It is important to check with your doctor if you have these symptoms. Only a doctor can diagnose and treat leukemia. Diagnosing Leukemia: Physical Exam, Blood Tests, Biopsy To find the cause of leukemia symptoms, the doctor will ask about medical history and conduct a physical exam. During the exam, the doctor will check for signs of disease such as lumps, swelling in the lymph nodes, spleen, and liver, or anything else that seems unusual. The doctor will need to do blood tests that check the levels and types of blood cells and look for changes in the shape of blood cells. The doctor also may look at certain factors in the blood to see if leukemia has affected other organs such as the liver or kidneys. Even if blood tests suggest leukemia, the doctor may look for signs of leukemia in the bone marrow by doing a biopsy before making a diagnosis. A biopsy is a procedure where a small amount of bone marrow is removed from a bone. A pathologist examines the sample under a microscope to look for abnormal cells. There are two ways the doctor can obtain bone marrow. In a bone marrow aspiration, marrow is collected by inserting a needle into the hipbone or another large bone and removing a small amount of bone marrow. A bone marrow biopsy is performed with a larger needle and removes bone marrow and a small piece of bone. If Leukemia Cells Are Found If leukemia cells are found in the bone marrow sample, the doctor may perform more tests to determine if the disease has spread to other parts of the body. The doctor may collect a sample of the fluid around the brain and spinal cord by performing a spinal tap and checking for leukemia cells or other signs of problems. Computed tomography (CT) scans, and ultrasounds are tests used to determine if leukemia has spread from the bone marrow. These tests produce pictures of the inside of the body. With these tests, the doctor looks for abnormalities such as enlarged organs or signs of infection.
What are the treatments for Leukemia ?	There are many treatment options for people with leukemia. The choice of treatment depends on your age and general health, the type of leukemia you have, whether or not it has spread outside the bone marrow, and other factors. If tests show that you have leukemia, you should talk with your doctor and make treatment decisions as soon as possible, although many patients with chronic lymphocytic leukemia do not require treatment for many years. Working With a Team of Specialists A team of specialists often treats people with leukemia. The team will keep the primary doctor informed about the patient's progress. The team may include a hematologist who is a specialist in blood and blood-forming tissues, a medical oncologist who is a specialist in cancer treatment, and a radiation oncologist who is a specialist in radiation therapy. Before starting treatment, you may want another doctor to review the diagnosis and treatment plan. Some insurance companies require a second opinion. Others may pay for a second opinion if you or your doctor requests it. Clinical Trials for Leukemia Some leukemia patients take part in studies of new treatments. These studies, called clinical trials, are designed to find out whether a new treatment is safe and effective and better than current treatments. Talk to your doctor if you are interested in taking part in a clinical trial. The U.S. National Institutes of Health, through its National Library of Medicine and other Institutes, maintains a database of clinical trials at ClinicalTrials.gov. Click here to search for current clinical trials on leukemia.
What are the treatments for Leukemia ?	Unlike other types of cancer, leukemia isn't a tumor that your doctor can surgically remove. Leukemia cells are produced in the bone marrow and travel throughout the body. The Goal of Treatment The goal of treatment for leukemia is to destroy the leukemia cells and allow normal cells to form in the bone marrow. Depending on the type and extent of the disease, patients may have chemotherapy, biological therapy, radiation therapy, or stem cell transplantation. Some patients receive a combination of treatments. Treatment depends on a number of factors, including the type of leukemia, the patient's age and general health, whether leukemia cells are present in the fluid around the brain or spinal cord, and whether the leukemia has been treated before. It also may depend on certain features of the leukemia cells and the patient's symptoms. Acute Leukemia or Chronic Leukemia? If a person has acute leukemia, they will need treatment right away. The purpose of treatment is to stop the rapid growth of leukemia cells and to bring about remission, meaning the cancer is under control. In many cases, a person will continue treatment after signs and symptoms disappear to prevent the disease from coming back. Some people with acute leukemia can be cured. Learn more about treatments for acute myeloid leukemia. Learn more about treatments for chronic lymphocytic leukemia. Chronic leukemia may not need to be treated until symptoms appear. Treatment can often control the disease and its symptoms. Types of Treatments Some, but not all, forms of treatment for leukemia include - chemotherapy - biological therapy - radiation therapy. chemotherapy biological therapy radiation therapy. Chemotherapy Chemotherapy uses drugs to kill cancer cells. This a common treatment for some types of leukemia. Chemotherapy may be taken by mouth in pill form, by injection directly into a vein, or through a catheter. If leukemia cells are found in the fluid around the brain or spinal cord, the doctor may inject drugs directly into the fluid to ensure that the drugs reach the leukemia cells in the brain. Biological Therapy Biological therapy uses special substances that improve the body's natural defenses against cancer. Some patients with chronic lymphocytic leukemia receive monoclonal antibodies, which are man-made proteins that can identify leukemia cells. Monoclonal antibodies bind to the cells and assist the body in killing them. Although monoclonal antibodies are being used to treat leukemia, researchers are studying more innovative ways to use them in treatment. Some antibodies are used alone to try to prompt the immune system to attack leukemia cells. Other antibodies are attached to substances that can deliver poison to cancer cells. These modified antibodies, called immunotoxins, deliver the toxins directly to the cancer cells. Lately, precision medicine trials have shown evidence that single targeted therapies taken in pill form can prolong survival. Radiation Therapy Radiation therapy uses high-energy X-rays to destroy cancer cells. A machine outside the body directs high-energy beams at the spleen, the brain, or other parts of the body where leukemia cells have collected. Radiation therapy is used primarily to control disease in bones that are at risk of fracture or at sites that are causing pain.
what research (or clinical trials) is being done for Leukemia ?	Researchers are conducting clinical trials in many parts of the country. Clinical trials test an intervention such as a drug, therapy, medical device, or behavior in many people to see if it is safe and effective. Clinical trials already have led to advances, and researchers continue to search for more effective ways to treat and diagnose leukemia. They are studying various drugs, immunotherapy, targeted therapies, and other types of treatments. They are also studying the effectiveness of using combinations of treatments. Most importantly, researchers are gaining a greater understanding of the genes that are mutated in many types of leukemia and are developing targeted treatments to directly attack the mutations. One prime example is in acute myeloid leukemia (AML) where researchers have identified several genes that predict better or worse outcomes and are working to develop drugs targeted at these genes. Drug Research The drug imatinib (Gleevec) is important in the treatment of chronic myeloid leukemia. Imatinib targets an abnormal protein that is present in most leukemia cells. By blocking the abnormal protein, imatinib kills the leukemia cells, but it does not kill normal cells. However, imatinib stops working in some people with leukemia because the cells become resistant. Fortunately, two drugs, dasatinib (Sprycel) and nilotinib (Tasigna), are now used to treat people who stop responding to imatinib. These drugs work against the same abnormal protein targeted by imatinib, but in different ways. Immunotherapy Immunotherapy is a treatment that uses immune cells or antibodies to fight leukemia or stop it from getting worse. The idea is to zero in on leukemia cells so the treatment is less toxic to normal cells. Recently developed immunotherapies are showing real promise in a number of forms of leukemia. Vaccine Research Leukemia vaccines are not vaccines in the way that most people think of them. Unlike most vaccines, which help prevent diseases, leukemia vaccines are used to treat someone who already has cancer. A vaccine introduces a molecule called an antigen into the body. The immune system recognizes the antigen as a foreign invader and attacks it. Gene Therapy Gene therapy -- replacing, manipulating, or supplementing nonfunctional genes with healthy genes -- is being explored for treatment of leukemia. It is being studied as a way to stimulate a patient's immune system to kill leukemia cells and also to interfere with the production of proteins that cause cells to become cancerous. Learn more about ongoing leukemia research.
What is (are) Leukemia ?	Cancer begins in cells, which make up the blood and other tissues. Normally, cells grow, divide, and produce more cells as needed to keep the body healthy and functioning properly. Sometimes, however, the process of creating a new cell goes wrong -- cells become abnormal and form more cells in an uncontrolled way.
What is (are) Leukemia ?	Leukemia is a cancer of the blood cells. It usually begins in the bone marrow where blood cells are formed. In leukemia, the bone marrow produces abnormal white blood cells. Over time, as the number of abnormal white blood cells builds up in the blood, they crowd out healthy blood cells. This makes it difficult for the blood to carry out its normal functions.
What is (are) Leukemia ?	Acute leukemia gets worse quickly. In chronic leukemia, symptoms develop gradually and are generally not as severe as in acute leukemia.
What is (are) Leukemia ?	There are four common types of leukemia. They are chronic lymphocytic leukemia, chronic myeloid leukemia, acute myeloid leukemia, and acute lymphocytic leukemia. Chronic lymphocytic leukemia, chronic myeloid leukemia, and acute myeloid leukemia are diagnosed more often in older adults. Acute lymphocytic leukemia is found more often in children. (Watch the video to learn how the rates of leukemia diagnosis vary by age. To enlarge the video, click the brackets in the lower right-hand corner. To reduce the video, press the Escape (Esc) button on your keyboard.) Learn more about chronic lymphocytic leukemia. Learn more about acute myeloid leukemia.
What is (are) Leukemia ?	Myeloma and lymphoma are other types of blood cancers. Both are common among older adults and occur more often in men than women. Myeloma affects plasma cells, a type of white blood cells typically found in the bone marrow. Lymphoma starts in the lymphatic system, which is part of the body's immune system. Learn more about myeloma.
Who is at risk for Leukemia? ?	For the most part, no one knows why some people develop leukemia and others do not. Most people who have known risk factors do not get leukemia, while many who get the disease do not have any risk factors. Studies have identified the following risk factors for leukemia. - older age - male - white - working with certain chemicals - smoking - exposure to very high levels of radiation - certain health conditions - past treatment with chemotherapy or radiation therapy. older age male white working with certain chemicals smoking exposure to very high levels of radiation certain health conditions past treatment with chemotherapy or radiation therapy.
What are the symptoms of Leukemia ?	Common symptoms of leukemia may include - fevers - frequent infections - feeling weak or tired - headache - bleeding and bruising easily - pain in the bones or joints - swelling or discomfort in the abdomen (from an enlarged spleen) - swollen lymph nodes, especially in the neck or armpit - weight loss. fevers frequent infections feeling weak or tired headache bleeding and bruising easily pain in the bones or joints swelling or discomfort in the abdomen (from an enlarged spleen) swollen lymph nodes, especially in the neck or armpit weight loss. Symptoms of acute leukemia may include vomiting, confusion, loss of muscle control, and seizures.
How to diagnose Leukemia ?	There are no standard or over-the-counter tests for leukemia. Your doctor can request lab analyses for leukemia that include blood tests that check the levels and types of blood cells and look for changes in the shape of blood cells. The doctor may also look for signs of leukemia in the bone marrow or the fluid around the brain or the spinal cord
What are the treatments for Leukemia ?	Treatment depends on a number of factors, including the type of leukemia, the patient's age and general health, where leukemia cells have collected in the body, and whether the leukemia has been treated before. Certain features of the leukemia cells and the patient's symptoms also may determine treatment options.
What are the treatments for Leukemia ?	Standard treatments for leukemia include chemotherapy, biological therapy, radiation therapy, and immunotherapy. Some patients receive a combination of treatments. Learn more about treatments for acute myeloid leukemia. Learn more about treatments for chronic lymphocytic leukemia.
What is (are) Leukemia ?	Chemotherapy is a cancer treatment that uses drugs to kill cancer cells. This is the most common treatment for most types of leukemia. Chemotherapy may be taken by mouth in pill form, by injection directly into a vein, or through a catheter. If leukemia cells are found in the fluid around the brain or spinal cord, the doctor may inject drugs directly into the fluid to ensure that the drugs reach the leukemia cells in the brain.
What is (are) Leukemia ?	Biological therapy is a treatment that uses a person's own immune system to fight leukemia. This therapy uses special substances to stimulate the immune system's ability to fight cancer. Some patients with chronic lymphocytic leukemia receive monoclonal antibodies, which are man-made proteins that can identify leukemia cells and help the body kill them.
What is (are) Leukemia ?	Radiation therapy is a cancer treatment that uses high-energy x-rays to destroy cancer cells. Some patients receive radiation treatment that is directed at the whole body.
what research (or clinical trials) is being done for Leukemia ?	Clinical trials are research studies in which new treatments -- drugs, diagnostics, procedures, vaccines, and other therapies -- are tested in people to see if they are safe, effective, and better than the current standard of care. Clinical trials often compare a new treatment with a standard treatment to determine which one gives better results. People with leukemia who are interested in taking part in a clinical trial should contact their doctor or go to www.clinical trials.gov and search "leukemia."
What are the treatments for Leukemia ?	Researchers are studying various drugs, immunotherapies, and other types of treatments. Because leukemia is a complicated disease, researchers are also studying the effectiveness of using combinations of treatments. Following are a few examples of some areas of current research. The drug imatinib (Gleevec) is important in the treatment of chronic myeloid leukemia. However, imatinib stops working in some people with leukemia because the cells become resistant. Fortunately, two drugs, dasatinib (Sprycel) and nilotinib (Tasigna), are being used to treat people who stop responding to imatinib. Both are approved by the FDA for use in patients. These drugs work against the same abnormal protein targeted by imatinib, but in different ways. Gene therapy -- replacing, manipulating, or supplementing nonfunctional genes with healthy genes -- is being explored for treatment of leukemia. It is being studied as a way to stimulate a patient's immune system to kill leukemia cells and also to interfere with the production of proteins that cause cells to become cancerous. Learn more about ongoing leukemia research.
What is (are) Osteoporosis ?	A Bone Disease Osteoporosis is a disease that thins and weakens the bones to the point that they become fragile and break easily. Women and men with osteoporosis most often break bones in the hip, spine, and wrist, but any bone can be affected. You can't "catch" osteoporosis or give it to someone else. In the United States, more than 53 million people either already have osteoporosis or are at high risk due to low bone mass, placing them at risk for more serious bone loss and fractures. Although osteoporosis can strike at any age, it is most common among older people, especially older women. How Bone Loss Occurs Bone is living tissue. Throughout our lives, the body breaks down old bone and replaces it with new bone. But as people age, more bone is broken down than is replaced. The inside of a bone normally looks like a honeycomb, but when a person has osteoporosis, the spaces inside this honeycomb become larger, reflecting the loss of bone density and strength. (The word "osteoporosis" means "porous bone.") The outside of long bones -- called the cortex -- also thins, further weakening the bone. Sometime around the age of 30, bone mass stops increasing, and the goal for bone health is to keep as much bone as possible for as long as you can. In most women, the rate of bone loss increases for several years after menopause, then slows down again, but continues. In men, the bone loss occurs more slowly. But by age 65 or 70, most men and women are losing bone at the same rate. Weak Bones Can Lead to Fractures Osteoporosis is often called "silent" because bone loss occurs without symptoms. People may not know that they have osteoporosis until a sudden strain, bump, or fall causes a bone to break. This can result in a trip to the hospital, surgery, and possibly a long-term disabling condition. Broken bones in your spine are painful and very slow to heal. People with weak bones in their spine gradually lose height and their posture becomes hunched over. Over time a bent spine can make it hard to walk or even sit up. Broken hips are a very serious problem as we age. They greatly increase the risk of death, especially during the year after they break. People who break a hip might not recover for months or even years. Because they often cannot care for themselves, they are more likely to have to live in a nursing home. Prevention and Treatment The good news is that osteoporosis can often be prevented and treated. Healthy lifestyle choices such as proper diet, exercise, and treatment medications can help prevent further bone loss and reduce the risk of fractures.
Who is at risk for Osteoporosis? ?	Risk Factors You Can't Change Some risk factors for osteoporosis cannot be changed. These include - Gender. Women are at higher risk for osteoporosis than men. They have smaller bones and lose bone more rapidly than men do because of hormone changes that occur after menopause. Therefore, if you are a woman, you are at higher risk for osteoporosis. - Age. Because bones become thinner with age, the older you are, the greater your risk of osteoporosis. - Ethnicity. Caucasian and Asian women are at the highest risk for osteoporosis. This is mainly due to differences in bone mass and density compared with other ethnic groups. African-American and Hispanic women are also at risk, but less so. - Family History. Osteoporosis tends to run in families. If a family member has osteoporosis or breaks a bone, there is a greater chance that you will too. - History of Previous Fracture. People who have had a fracture after the age of 50 are at high risk of having another. Gender. Women are at higher risk for osteoporosis than men. They have smaller bones and lose bone more rapidly than men do because of hormone changes that occur after menopause. Therefore, if you are a woman, you are at higher risk for osteoporosis. Age. Because bones become thinner with age, the older you are, the greater your risk of osteoporosis. Ethnicity. Caucasian and Asian women are at the highest risk for osteoporosis. This is mainly due to differences in bone mass and density compared with other ethnic groups. African-American and Hispanic women are also at risk, but less so. Family History. Osteoporosis tends to run in families. If a family member has osteoporosis or breaks a bone, there is a greater chance that you will too. History of Previous Fracture. People who have had a fracture after the age of 50 are at high risk of having another. Risk Factors You Can Change There are other risk factors for osteoporosis that can be changed. - Poor diet. Getting too little calcium over your lifetime can increase your risk for osteoporosis. Not getting enough vitamin D -- either from your diet, supplements, or sunlight -- can also increase your risk for osteoporosis. Vitamin D is important because it helps the body absorb calcium. An overall diet adequate in protein and other vitamins and minerals is also essential for bone health. - Physical inactivity. Not exercising and being inactive or staying in bed for long periods can increase your risk of developing osteoporosis. Like muscles, bones become stronger with exercise. - Smoking. Cigarette smokers may absorb less calcium from their diets. In addition, women who smoke have lower levels of estrogen in their bodies. Learn more about smoking and bone health. Poor diet. Getting too little calcium over your lifetime can increase your risk for osteoporosis. Not getting enough vitamin D -- either from your diet, supplements, or sunlight -- can also increase your risk for osteoporosis. Vitamin D is important because it helps the body absorb calcium. An overall diet adequate in protein and other vitamins and minerals is also essential for bone health. Physical inactivity. Not exercising and being inactive or staying in bed for long periods can increase your risk of developing osteoporosis. Like muscles, bones become stronger with exercise. Smoking. Cigarette smokers may absorb less calcium from their diets. In addition, women who smoke have lower levels of estrogen in their bodies. Learn more about smoking and bone health. - Medications. Some commonly used medicines can cause loss of bone mass. These include a type of steroid called glucocorticoids, which are used to control diseases such as arthritis and asthma; some antiseizure drugs; some medicines that treat endometriosis; and some cancer drugs. Using too much thyroid hormone for an underactive thyroid can also be a problem. Talk to your doctor about the medications you are taking and what you can do to protect your bones. - Low body weight. Women who are thin -- and small-boned -- are at greater risk for osteoporosis. Medications. Some commonly used medicines can cause loss of bone mass. These include a type of steroid called glucocorticoids, which are used to control diseases such as arthritis and asthma; some antiseizure drugs; some medicines that treat endometriosis; and some cancer drugs. Using too much thyroid hormone for an underactive thyroid can also be a problem. Talk to your doctor about the medications you are taking and what you can do to protect your bones. Low body weight. Women who are thin -- and small-boned -- are at greater risk for osteoporosis. Use this checklist to find out if you are at risk for weak bones. Many of these risk factors, both ones you can change and ones you cannot change, affect peak bone mass, which is when your bones achieve maximum strength and density. Because high peak bone density can reduce osteoporosis risk later in life, it makes sense to pay more attention to those factors that affect peak bone mass. Learn more about peak bone mass.
What are the symptoms of Osteoporosis ?	Fractures -- A Possible Warning Sign Osteoporosis does not have any symptoms until a fracture occurs. Women and men with osteoporosis most often break bones in the hip, spine, and wrist. But any fracture in an older person could be a warning sign that the bone is weaker than optimal. Some people may be unaware that they have already experienced one or more spine fractures. Height loss of one inch or more may be the first sign that someone has experienced spine fractures due to osteoporosis. Multiple spine fractures can cause a curved spine, stooped posture, back pain, and back fatigue. Women and men who have had a fracture are at high risk of experiencing another one. A fracture over the age of 50 or several fractures before that age may be a warning sign that a person has already developed osteoporosis. People over the age of 50 who have experienced a fracture should talk to their doctor about getting evaluated for osteoporosis. Risk Factors for Fractures The more likely you are to fall, the higher your risk for a fracture. And more severe falls increase your risk for fractures. Factors that increase your risk of falling and of fracturing a bone include - decreased muscle strength - poor balance - impaired eyesight - impaired mental abilities - certain medications, such as tranquilizers and muscle relaxants - hazardous elements in your living environment, such as slippery throw rugs and icy sidewalks. decreased muscle strength poor balance impaired eyesight impaired mental abilities certain medications, such as tranquilizers and muscle relaxants hazardous elements in your living environment, such as slippery throw rugs and icy sidewalks. The angle at which you fall also affects your risk of fracture. Hip Fractures Although low bone mass (or low bone density) plays an important role in determining a person's risk of osteoporosis, it is only one of many risk factors for fractures. Various aspects of bone geometry, such as tallness, hip structure, and thighbone (femur) length, can also affect your chances of breaking a bone if you fall. Increasing age, too much weight loss, a history of fractures since age 50, having an existing spine fracture, and having a mother who fractured her hip all increase the risk of hip fracture regardless of a person's bone density. People with more risk factors have a higher chance of suffering a hip fracture.
How to diagnose Osteoporosis ?	Who Should Be Tested? The United States Preventive Service Task Force recommends that women aged 65 and older be screened (tested) for osteoporosis, as well as women aged 60 and older who are at increased risk for an osteoporosis-related fracture. However, the decision of whether or not to have a bone density test is best made between a patient and his or her physician. Medicare will usually cover the cost of a bone density test, and a follow up test every 2 years, for female beneficiaries. It also will cover screening and follow up of any male Medicare recipients who have significant risk factors for osteoporosis. When To Talk With a Doctor Consider talking to your doctor about being evaluated for osteoporosis if - you are a man or woman over age 50 or a postmenopausal woman and you break a bone - you are a woman age 65 or older - you are a woman younger than 65 and at high risk for fractures - you have lost height, developed a stooped or hunched posture, or experienced sudden back pain with no apparent cause - you have been taking glucocorticoid medications such as prednisone, cortisone, or dexamethasone for 2 months or longer or are taking other medications known to cause bone loss - you have a chronic illness or are taking a medication that is known to cause bone loss - you have anorexia nervosa or a history of this eating disorder. - you are a premenopausal woman, not pregnant, and your menstrual periods have stopped, are irregular, or never started when you reached puberty. you are a man or woman over age 50 or a postmenopausal woman and you break a bone you are a woman age 65 or older you are a woman younger than 65 and at high risk for fractures you have lost height, developed a stooped or hunched posture, or experienced sudden back pain with no apparent cause you have been taking glucocorticoid medications such as prednisone, cortisone, or dexamethasone for 2 months or longer or are taking other medications known to cause bone loss you have a chronic illness or are taking a medication that is known to cause bone loss you have anorexia nervosa or a history of this eating disorder. you are a premenopausal woman, not pregnant, and your menstrual periods have stopped, are irregular, or never started when you reached puberty. Diagnosing Osteoporosis Diagnosing osteoporosis involves several steps, starting with a physical exam and a careful medical history, blood and urine tests, and possibly a bone mineral density assessment. When recording information about your medical history, your doctor will ask questions to find out whether you have risk factors for osteoporosis and fractures. The doctor may ask about - any fractures you have had - your lifestyle (including diet, exercise habits, and whether you smoke) - current or past health problems - medications that could contribute to low bone mass and increased fracture risk - your family history of osteoporosis and other diseases - for women, your menstrual history. any fractures you have had your lifestyle (including diet, exercise habits, and whether you smoke) current or past health problems medications that could contribute to low bone mass and increased fracture risk your family history of osteoporosis and other diseases for women, your menstrual history. The doctor will also do a physical exam that should include checking for loss of height and changes in posture and may include checking your balance and gait (the way you walk). Bone Density Tests The test used to diagnose osteoporosis is called a bone density test. This test is a measure of how strong -- or dense -- your bones are and can help your doctor predict your risk for having a fracture. Bone density tests are painless, safe, and require no preparation on your part. Bone density tests compare your bone density to the bones of an average healthy young adult. The test result, known as a T-score, tells you how strong your bones are, whether you have osteoporosis or osteopenia (low bone mass that is not low enough to be diagnosed as osteoporosis), and your risk for having a fracture. Some bone density tests measure the strength of the hip, spine, and/or wrist, which are the bones that break most often in people with osteoporosis. Other tests measure bone in the heel or hand. Although no bone density test is 100 percent accurate, it is the single most important diagnostic test to predict whether a person will have a fracture in the future. The most widely recognized bone density test is a central DXA (dual-energy x-ray absorptiometry) scan of the hip and spine. This test shows if you have normal bone density, low bone mass, or osteoporosis. It is also used to monitor bone density changes as a person ages or in response to treatment.
What are the treatments for Osteoporosis ?	Who Treats Osteoporosis? Although there is no cure for osteoporosis, it can be treated. If your doctor does not specialize in osteoporosis, he or she can refer you to a specialist. There is not one type of doctor who cares for people with osteoporosis. Many family doctors have been learning about osteoporosis and can treat people who have it. Endocrinologists, rheumatologists, geriatricians, and internists are just a few of the specialists who can provide care to people with osteoporosis. Here is how to find an appropriate health care professional to treat osteoporosis. The Goal of Treatment The goal of treatment is to prevent fractures. A balanced diet rich in calcium, adequate vitamin D, a regular exercise program, and fall prevention are all important for maintaining bone health. Medications Several medications are approved by the Food and Drug Administration for the treatment of osteoporosis. Since all medications have side effects, it is important to talk to your doctor about which medication is right for you. Bisphosphonates. Several bisphosphonates are approved for the prevention or treatment of osteoporosis. These medications reduce the activity of cells that cause bone loss. - Side effects of taking oral bisphosphonates may include nausea, heartburn, and stomach pain, including serious digestive problems if they are not taken properly. Side effects of taking oral bisphosphonates may include nausea, heartburn, and stomach pain, including serious digestive problems if they are not taken properly. - A few people have muscle, bone, or joint pain while using these medicines. A few people have muscle, bone, or joint pain while using these medicines. - Side effects of intravenous bisphosphonates may include flu-like symptoms such as fever, pain in muscles or joints, and headaches. These symptoms usually stop after a few days. In rare cases, deterioration of the jawbone or an unusual type of broken bone in the femur (thigh bone) has occurred in people taking bisphosphonates. Side effects of intravenous bisphosphonates may include flu-like symptoms such as fever, pain in muscles or joints, and headaches. These symptoms usually stop after a few days. In rare cases, deterioration of the jawbone or an unusual type of broken bone in the femur (thigh bone) has occurred in people taking bisphosphonates. - The Food and Drug Administration recommends that health care professionals consider periodic reevaluation of the need for continued bisphosphonate therapy, particularly for patients who have been on bisphosphonates for longer than 5 years. The Food and Drug Administration recommends that health care professionals consider periodic reevaluation of the need for continued bisphosphonate therapy, particularly for patients who have been on bisphosphonates for longer than 5 years. Parathyroid hormone. A form of human parathyroid hormone (PTH) is approved for postmenopausal women and men with osteoporosis who are at high risk for having a fracture. Use of the drug for more than 2 years is not recommended. RANK ligand (RANKL) inhibitor. A RANK ligand (RANKL) inhibitor is approved for postmenopausal women with osteoporosis who are at high risk for fracture Estrogen agonists/antagonists. An estrogen agonist/ antagonist (also called a selective estrogen receptor modulator or SERM) is approved for the prevention and treatment of osteoporosis in postmenopausal women. SERMs are not estrogens, but they have estrogen-like effects on some tissues and estrogen-blocking effects on other tissues. Calcitonin. Calcitonin is approved for the treatment of osteoporosis in women who are at least 5 years beyond menopause. Calcitonin is a hormone involved in calcium regulation and bone metabolism. Estrogen and Hormone Therapy. Estrogen is approved for the treatment of menopausal symptoms and osteoporosis in women after menopause. - Because of recent evidence that breast cancer, strokes, blood clots, and heart attacks may be increased in some women who take estrogen, the Food and Drug Administration recommends that women take the lowest effective dose for the shortest period possible. Estrogen should only be considered for women at significant risk for osteoporosis, and nonestrogen medications should be carefully considered first. Because of recent evidence that breast cancer, strokes, blood clots, and heart attacks may be increased in some women who take estrogen, the Food and Drug Administration recommends that women take the lowest effective dose for the shortest period possible. Estrogen should only be considered for women at significant risk for osteoporosis, and nonestrogen medications should be carefully considered first.
what research (or clinical trials) is being done for Osteoporosis ?	Scientists are pursuing a wide range of basic and clinical studies on osteoporosis. Significant advances in preventing and treating osteoporosis continue to be made. Such advances are the direct result of research focused on - determining the causes and consequences of bone loss at the cellular and tissue levels - assessing risk factors - developing new strategies to maintain and even enhance bone density and reduce fracture risk - exploring the roles of such factors as genetics, hormones, calcium, vitamin D, drugs, and exercise on bone mass. determining the causes and consequences of bone loss at the cellular and tissue levels assessing risk factors developing new strategies to maintain and even enhance bone density and reduce fracture risk exploring the roles of such factors as genetics, hormones, calcium, vitamin D, drugs, and exercise on bone mass. Get more information about ongoing research on osteoporosis from the National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS) at NIH.
What is (are) Osteoporosis ?	Osteoporosis is a disease that thins and weakens the bones to the point that they break easily. Women and men with osteoporosis most often break bones in the hip, spine, and wrist, but osteoporosis can be the cause of bone fractures anywhere.
Who is at risk for Osteoporosis? ?	Some risk factors for osteoporosis cannot be changed. These include - Gender. Women are at higher risk for osteoporosis than men. They have smaller bones and lose bone more rapidly than men do because of hormone changes that occur after menopause. Therefore, if you are a woman, you are at higher risk for osteoporosis. - Age. Because bones become thinner with age, the older you are, the greater your risk of osteoporosis. - Ethnicity. Caucasian and Asian women are at the highest risk for osteoporosis. This is mainly due to differences in bone mass and density compared with other ethnic groups. African-American and Hispanic women are also at risk, but less so. - Family History. Osteoporosis tends to run in families. If a family member has osteoporosis or breaks a bone, there is a greater chance that you will too. - History of Previous Fracture. People who have had a fracture after the age of 50 are at high risk of having another. Gender. Women are at higher risk for osteoporosis than men. They have smaller bones and lose bone more rapidly than men do because of hormone changes that occur after menopause. Therefore, if you are a woman, you are at higher risk for osteoporosis. Age. Because bones become thinner with age, the older you are, the greater your risk of osteoporosis. Ethnicity. Caucasian and Asian women are at the highest risk for osteoporosis. This is mainly due to differences in bone mass and density compared with other ethnic groups. African-American and Hispanic women are also at risk, but less so. Family History. Osteoporosis tends to run in families. If a family member has osteoporosis or breaks a bone, there is a greater chance that you will too. History of Previous Fracture. People who have had a fracture after the age of 50 are at high risk of having another.
Who is at risk for Osteoporosis? ?	Here are risk factors for osteoporosis that you can control. - Poor diet. Getting too little calcium over your lifetime can increase your risk for osteoporosis. Not getting enough vitamin D -- either from your diet, supplements, or sunlight -- can also increase your risk for osteoporosis. Vitamin D is important because it helps the body absorb calcium. An overall diet adequate in protein and other vitamins and minerals is also essential for bone health. - Physical inactivity. Not exercising and being inactive or staying in bed for long periods can increase your risk of developing osteoporosis. Like muscles, bones become stronger with exercise. - Smoking. Cigarette smokers may absorb less calcium from their diets. In addition, women who smoke have lower levels of estrogen in their bodies. Learn more about smoking and bone health. - Medications. Some commonly used medicines can cause loss of bone mass. These include a type of steroid called glucocorticoids, which are used to control diseases such as arthritis and asthma; some antiseizure drugs; some medicines that treat endometriosis; and some cancer drugs. Using too much thyroid hormone for an underactive thyroid can also be a problem. Talk to your doctor about the medications you are taking and what you can do to protect your bones. - Low body weight. Women who are thin -- and small-boned -- are at greater risk for osteoporosis. Poor diet. Getting too little calcium over your lifetime can increase your risk for osteoporosis. Not getting enough vitamin D -- either from your diet, supplements, or sunlight -- can also increase your risk for osteoporosis. Vitamin D is important because it helps the body absorb calcium. An overall diet adequate in protein and other vitamins and minerals is also essential for bone health. Physical inactivity. Not exercising and being inactive or staying in bed for long periods can increase your risk of developing osteoporosis. Like muscles, bones become stronger with exercise. Smoking. Cigarette smokers may absorb less calcium from their diets. In addition, women who smoke have lower levels of estrogen in their bodies. Learn more about smoking and bone health. Medications. Some commonly used medicines can cause loss of bone mass. These include a type of steroid called glucocorticoids, which are used to control diseases such as arthritis and asthma; some antiseizure drugs; some medicines that treat endometriosis; and some cancer drugs. Using too much thyroid hormone for an underactive thyroid can also be a problem. Talk to your doctor about the medications you are taking and what you can do to protect your bones. Low body weight. Women who are thin -- and small-boned -- are at greater risk for osteoporosis.
Who is at risk for Osteoporosis? ?	If you have any of these red flags, you could be at high risk for weak bones. Talk to your doctor, nurse, pharmacist, or other health care professional. Do any of these apply to you? - ____ Im older than 65. - ____ Ive broken a bone after age 50. - ____ My close relative has osteoporosis or has broken a bone. - ____ My health is fair or poor. - ____ I smoke. - ____ I am underweight for my height. - ____ I started menopause before age 45. - ____ Ive never gotten enough calcium. - ____ I have more than two drinks of alcohol several times a week. - ____ I have poor vision, even with glasses. - ____ I sometimes fall. - ____ Im not active. - ____ I have one of these medical conditions: - Hyperthyroidism - Chronic lung disease - Cancer - Inflammatory bowel disease - Chronic hepatic or renal disease - Hyperparathyroidism - Vitamin D deficiency - Cushings disease - Multiple sclerosis - Rheumatoid arthritis ____ Im older than 65. ____ Ive broken a bone after age 50. ____ My close relative has osteoporosis or has broken a bone. ____ My health is fair or poor. ____ I smoke. ____ I am underweight for my height. ____ I started menopause before age 45. ____ Ive never gotten enough calcium. ____ I have more than two drinks of alcohol several times a week. ____ I have poor vision, even with glasses. ____ I sometimes fall. ____ Im not active. ____ I have one of these medical conditions: - Hyperthyroidism - Chronic lung disease - Cancer - Inflammatory bowel disease - Chronic hepatic or renal disease - Hyperparathyroidism - Vitamin D deficiency - Cushings disease - Multiple sclerosis - Rheumatoid arthritis - Hyperthyroidism - Chronic lung disease - Cancer - Inflammatory bowel disease - Chronic hepatic or renal disease - Hyperparathyroidism - Vitamin D deficiency - Cushings disease - Multiple sclerosis - Rheumatoid arthritis Hyperthyroidism Chronic lung disease Cancer Inflammatory bowel disease Chronic hepatic or renal disease Hyperparathyroidism Vitamin D deficiency Cushings disease Multiple sclerosis Rheumatoid arthritis - ____ I take one of these medicines: - Oral glucocorticoids (steroids) - Cancer treatments (radiation, chemotherapy) - Thyroid medicine - Antiepileptic medications - Gonadal hormone suppression - Immunosuppressive agents ____ I take one of these medicines: - Oral glucocorticoids (steroids) - Cancer treatments (radiation, chemotherapy) - Thyroid medicine - Antiepileptic medications - Gonadal hormone suppression - Immunosuppressive agents - Oral glucocorticoids (steroids) - Cancer treatments (radiation, chemotherapy) - Thyroid medicine - Antiepileptic medications - Gonadal hormone suppression - Immunosuppressive agents Oral glucocorticoids (steroids) Cancer treatments (radiation, chemotherapy) Thyroid medicine Antiepileptic medications Gonadal hormone suppression Immunosuppressive agents
Who is at risk for Osteoporosis? ?	Women have smaller bones, and they lose bone more rapidly than men because of hormone changes that occur after menopause. Therefore, women are at higher risk for osteoporosis.
How to prevent Osteoporosis ?	Preventing falls is a special concern for men and women with osteoporosis. Falls can increase the likelihood of fracturing a bone in the hip, wrist, spine, or other part of the skeleton. In addition to the environmental factors listed below, falls can also be caused by impaired vision or balance, chronic diseases that affect mental or physical functioning, and certain medications, such as sedatives and antidepressants. It is also important that individuals with osteoporosis be aware of any physical changes that affect their balance or gait, and that they discuss these changes with their health care provider. Here are some tips to help eliminate the environmental factors that lead to falls. Outdoors: - Use a cane or walker for added stability. - Wear rubber-soled shoes for traction. - Walk on grass when sidewalks are slippery. - In winter, carry salt or kitty litter to sprinkle on slippery sidewalks. - Be careful on highly polished floors that become slick and dangerous when wet. - Use plastic or carpet runners when possible. Use a cane or walker for added stability. Wear rubber-soled shoes for traction. Walk on grass when sidewalks are slippery. In winter, carry salt or kitty litter to sprinkle on slippery sidewalks. Be careful on highly polished floors that become slick and dangerous when wet. Use plastic or carpet runners when possible. Indoors: - Keep rooms free of clutter, especially on floors. - Keep floor surfaces smooth but not slippery. - Wear supportive, low-heeled shoes even at home. - Avoid walking in socks, stockings, or slippers. - Be sure carpets and area rugs have skid-proof backing or are tacked to the floor. - Be sure stairwells are well lit and that stairs have handrails on both sides. - Install grab bars on bathroom walls near tub, shower, and toilet. - Use a rubber bath mat in shower or tub. - Keep a flashlight with fresh batteries beside your bed. - If using a step stool for hard-to-reach areas, use a sturdy one with a handrail and wide steps. - Add ceiling fixtures to rooms lit by lamps. - Consider purchasing a cordless phone so that you dont have to rush to answer the phone when it rings, or so that you can call for help if you do fall. Keep rooms free of clutter, especially on floors. Keep floor surfaces smooth but not slippery. Wear supportive, low-heeled shoes even at home. Avoid walking in socks, stockings, or slippers. Be sure carpets and area rugs have skid-proof backing or are tacked to the floor. Be sure stairwells are well lit and that stairs have handrails on both sides. Install grab bars on bathroom walls near tub, shower, and toilet. Use a rubber bath mat in shower or tub. Keep a flashlight with fresh batteries beside your bed. If using a step stool for hard-to-reach areas, use a sturdy one with a handrail and wide steps. Add ceiling fixtures to rooms lit by lamps. Consider purchasing a cordless phone so that you dont have to rush to answer the phone when it rings, or so that you can call for help if you do fall. Learn more about devices that can help prevent falls in older adults.
Who is at risk for Osteoporosis? ?	The more likely you are to fall, the higher your risk for a fracture. And more severe falls increase your risk for fractures. Factors that increase your risk of falling and of fracturing a bone include - decreased muscle strength - poor balance - impaired eyesight - impaired mental abilities - certain medications, such as tranquilizers and muscle relaxants - hazardous elements in your living environment, such as slippery throw rugs and icy sidewalks. decreased muscle strength poor balance impaired eyesight impaired mental abilities certain medications, such as tranquilizers and muscle relaxants hazardous elements in your living environment, such as slippery throw rugs and icy sidewalks.
What is (are) Osteoporosis ?	If you have osteoporosis, ask your doctor which activities are safe for you. If you have low bone mass, experts recommend that you protect your spine by avoiding exercises or activities that flex, bend, or twist it. Furthermore, you should avoid high-impact exercise to lower the risk of breaking a bone. You also might want to consult with an exercise specialist to learn the proper progression of activity, how to stretch and strengthen muscles safely, and how to correct poor posture habits. An exercise specialist should have a degree in exercise physiology, physical education, physical therapy, or a similar specialty. Be sure to ask if he or she is familiar with the special needs of people with osteoporosis. If you have health problemssuch as heart trouble, high blood pressure, diabetes, or obesityor if you aren't used to energetic activity, check with your doctor before you begin a regular exercise program.
What are the symptoms of Osteoporosis ?	Osteoporosis does not have any symptoms until a fracture occurs. Some people may be unaware that they have already experienced one or more spine fractures. Height loss of one inch or more may be the first sign that someone has experienced spinal fractures due to osteoporosis. People who have experienced a fracture are at high risk of having another one. A fracture over the age of 50 or several fractures before that age may be a warning sign that a person has already developed osteoporosis. Any fracture in an older person should be followed up for suspicion of osteoporosis.
What is (are) Osteoporosis ?	Consider talking to your doctor about being evaluated for osteoporosis if - you are a man or woman over age 50 or a postmenopausal woman and you break a bone - you are a woman age 65 or older - you are a woman younger than 65 and at high risk for fractures - you have lost height, developed a stooped or hunched posture, or experienced sudden back pain with no apparent cause - you have been taking glucocorticoid medications such as prednisone, cortisone, or dexamethasone for 2 months or longer or are taking other medications known to cause bone loss - you have a chronic illness or are taking a medication that is known to cause bone loss - you have anorexia nervosa or a history of this eating disorder. - you are a premenopausal woman, not pregnant, and your menstrual periods have stopped, are irregular, or never started when you reached puberty. you are a man or woman over age 50 or a postmenopausal woman and you break a bone you are a woman age 65 or older you are a woman younger than 65 and at high risk for fractures you have lost height, developed a stooped or hunched posture, or experienced sudden back pain with no apparent cause you have been taking glucocorticoid medications such as prednisone, cortisone, or dexamethasone for 2 months or longer or are taking other medications known to cause bone loss you have a chronic illness or are taking a medication that is known to cause bone loss you have anorexia nervosa or a history of this eating disorder. you are a premenopausal woman, not pregnant, and your menstrual periods have stopped, are irregular, or never started when you reached puberty. Here is how to find an appropriate health care professional to treat osteoporosis.
How to diagnose Osteoporosis ?	Diagnosing osteoporosis involves several steps, starting with a physical exam and a careful medical history, blood and urine tests, and possibly a bone mineral density assessment. When recording information about your medical history, your doctor will ask questions to find out whether you have risk factors for osteoporosis and fractures. The doctor may ask about - any fractures you have had - your lifestyle (including diet, exercise habits, and whether you smoke) - current or past health problems - medications that could contribute to low bone mass and increased fracture risk - your family history of osteoporosis and other diseases - for women, your menstrual history. any fractures you have had your lifestyle (including diet, exercise habits, and whether you smoke) current or past health problems medications that could contribute to low bone mass and increased fracture risk your family history of osteoporosis and other diseases for women, your menstrual history.
What are the treatments for Osteoporosis ?	A comprehensive osteoporosis treatment program includes a focus on proper nutrition, exercise, and safety issues to prevent falls that may result in fractures. In addition, your doctor may prescribe a medication to slow or stop bone loss, increase bone density, and reduce fracture risk. Nutrition. The foods we eat contain a variety of vitamins, minerals, and other important nutrients that help keep our bodies healthy. All of these nutrients are needed in balanced proportion. In particular, calcium and vitamin D are needed for strong bones and for your heart, muscles, and nerves to function properly. Exercise. Exercise is an important component of an osteoporosis prevention and treatment program. Exercise not only improves your bone health, but it increases muscle strength, coordination, and balance, and leads to better overall health. Although exercise is good for someone with osteoporosis, it should not put any sudden or excessive strain on your bones. As extra insurance against fractures, your doctor can recommend specific exercises to strengthen and support your back. Therapeutic medications. Several medications are available for the prevention and/or treatment of osteoporosis, including: bisphosphonates; estrogen agonists/antagonists (also called selective estrogen receptor modulators or SERMS); calcitonin; parathyroid hormone; estrogen therapy; hormone therapy; and a recently approved RANK ligand (RANKL) inhibitor. (Watch the video to learn how exercise helped a 70-year-old woman with osteoporosis. To enlarge the video, click the brackets in the lower right-hand corner. To reduce the video, press the Escape (Esc) button on your keyboard.)
What are the treatments for Osteoporosis ?	Several medications are approved by the Food and Drug Administration for the treatment of osteoporosis. Since all medications have side effects, it is important to talk to your doctor about which medication is right for you. Bisphosphonates. Several bisphosphonates are approved for the prevention or treatment of osteoporosis. These medications reduce the activity of cells that cause bone loss. - Side effects of taking oral bisphosphonates may include nausea, heartburn, and stomach pain, including serious digestive problems if they are not taken properly. Side effects of taking oral bisphosphonates may include nausea, heartburn, and stomach pain, including serious digestive problems if they are not taken properly. - A few people have muscle, bone, or joint pain while using these medicines. A few people have muscle, bone, or joint pain while using these medicines. - Side effects of intravenous bisphosphonates may include flu-like symptoms such as fever, pain in muscles or joints, and headaches. These symptoms usually stop after a few days. In rare cases, deterioration of the jawbone or an unusual type of broken bone in the femur (thigh bone) has occurred in people taking bisphosphonates. Side effects of intravenous bisphosphonates may include flu-like symptoms such as fever, pain in muscles or joints, and headaches. These symptoms usually stop after a few days. In rare cases, deterioration of the jawbone or an unusual type of broken bone in the femur (thigh bone) has occurred in people taking bisphosphonates. - The Food and Drug Administration recommends that health care professionals consider periodic reevaluation of the need for continued bisphosphonate therapy, particularly for patients who have been on bisphosphonates for longer than 5 years. The Food and Drug Administration recommends that health care professionals consider periodic reevaluation of the need for continued bisphosphonate therapy, particularly for patients who have been on bisphosphonates for longer than 5 years. Parathyroid hormone. A form of human parathyroid hormone (PTH) is approved for postmenopausal women and men with osteoporosis who are at high risk for having a fracture. Use of the drug for more than 2 years is not recommended. RANK ligand (RANKL) inhibitor. A RANK ligand (RANKL) inhibitor is approved for postmenopausal women with osteoporosis who are at high risk for fracture Estrogen agonists/antagonists. An estrogen agonist/ antagonist (also called a selective estrogen receptor modulator or SERM) is approved for the prevention and treatment of osteoporosis in postmenopausal women. SERMs are not estrogens, but they have estrogen-like effects on some tissues and estrogen-blocking effects on other tissues. Calcitonin. Calcitonin is approved for the treatment of osteoporosis in women who are at least 5 years beyond menopause. Calcitonin is a hormone involved in calcium regulation and bone metabolism. Estrogen and hormone therapy. Estrogen is approved for the treatment of menopausal symptoms and osteoporosis in women after menopause. - Because of recent evidence that breast cancer, strokes, blood clots, and heart attacks may be increased in some women who take estrogen, the Food and Drug Administration recommends that women take the lowest effective dose for the shortest period possible. Estrogen should only be considered for women at significant risk for osteoporosis, and nonestrogen medications should be carefully considered first. Because of recent evidence that breast cancer, strokes, blood clots, and heart attacks may be increased in some women who take estrogen, the Food and Drug Administration recommends that women take the lowest effective dose for the shortest period possible. Estrogen should only be considered for women at significant risk for osteoporosis, and nonestrogen medications should be carefully considered first.
What is (are) Osteoporosis ?	Millions of Americans are able to lead healthy, productive lives while living with osteoporosis. If you have been feeling symptoms of depressionsuch as loss of appetite, hopelessness, feeling useless and helpless, or having thoughts of suicidefor more than 2 weeks, consult a doctor, social worker, or therapist. Medications and counseling are available to fight depression. Learn more about the emotional impact of osteoporosis. Learn more about older adults and depression. (Watch the video to learn more about coping with osteoporosis. To enlarge the video, click the brackets in the lower right-hand corner. To reduce the video, press the Escape (Esc) button on your keyboard.)
What is (are) Binswanger's Disease ?	Binswanger's disease (BD), also called subcortical vascular dementia, is a type of dementia caused by widespread, microscopic areas of damage to the deep layers of white matter in the brain. The damage is the result of the thickening and narrowing (atherosclerosis) of arteries that feed the subcortical areas of the brain. Atherosclerosis (commonly known as "hardening of the arteries") is a systemic process that affects blood vessels throughout the body. It begins late in the fourth decade of life and increases in severity with age. As the arteries become more and more narrowed, the blood supplied by those arteries decreases and brain tissue dies. A characteristic pattern of BD-damaged brain tissue can be seen with modern brain imaging techniques such as CT scans or magnetic resonance imaging (MRI). The symptoms associated with BD are related to the disruption of subcortical neural circuits that control what neuroscientists call executive cognitive functioning: short-term memory, organization, mood, the regulation of attention, the ability to act or make decisions, and appropriate behavior. The most characteristic feature of BD is psychomotor slowness - an increase in the length of time it takes, for example, for the fingers to turn the thought of a letter into the shape of a letter on a piece of paper. Other symptoms include forgetfulness (but not as severe as the forgetfulness of Alzheimer's disease), changes in speech, an unsteady gait, clumsiness or frequent falls, changes in personality or mood (most likely in the form of apathy, irritability, and depression), and urinary symptoms that aren't caused by urological disease. Brain imaging, which reveals the characteristic brain lesions of BD, is essential for a positive diagnosis.
What are the treatments for Binswanger's Disease ?	There is no specific course of treatment for BD. Treatment is symptomatic. People with depression or anxiety may require antidepressant medications such as the serotonin-specific reuptake inhibitors (SSRI) sertraline or citalopram. Atypical antipsychotic drugs, such as risperidone and olanzapine, can be useful in individuals with agitation and disruptive behavior. Recent drug trials with the drug memantine have shown improved cognition and stabilization of global functioning and behavior. The successful management of hypertension and diabetes can slow the progression of atherosclerosis, and subsequently slow the progress of BD. Because there is no cure, the best treatment is preventive, early in the adult years, by controlling risk factors such as hypertension, diabetes, and smoking.
What is the outlook for Binswanger's Disease ?	BD is a progressive disease; there is no cure. Changes may be sudden or gradual and then progress in a stepwise manner. BD can often coexist with Alzheimer's disease. Behaviors that slow the progression of high blood pressure, diabetes, and atherosclerosis -- such as eating a healthy diet and keeping healthy wake/sleep schedules, exercising, and not smoking or drinking too much alcohol -- can also slow the progression of BD.
what research (or clinical trials) is being done for Binswanger's Disease ?	The National Institute of Neurological Disorders and Stroke (NINDS) conducts research related to BD in its laboratories at the National Institutes of Health (NIH), and also supports additional research through grants to major medical institutions across the country. Much of this research focuses on finding better ways to prevent, treat, and ultimately cure neurological disorders, such as BD.
What is (are) Neurological Sequelae Of Lupus ?	Lupus (also called systemic lupus erythematosus) is a disorder of the immune system. Normally, the immune system protects the body against invading infections and cancers. In lupus, the immune system is over-active and produces increased amounts of abnormal antibodies that attack the body's tissues and organs. Lupus can affect many parts of the body, including the joints, skin, kidneys, lungs, heart, nervous system, and blood vessels. The signs and symptoms of lupus differ from person to person; the disease can range from mild to life threatening. Initial symptoms of lupus may begin with a fever, vascular headaches, epilepsy, or psychoses. A striking feature of lupus is a butterfly shaped rash over the cheeks. In addition to headache, lupus can cause other neurological disorders, such as mild cognitive dysfunction, organic brain syndrome, peripheral neuropathies, sensory neuropathy, psychological problems (including personality changes, paranoia, mania, and schizophrenia), seizures, transverse myelitis, and paralysis and stroke.
What are the treatments for Neurological Sequelae Of Lupus ?	There is no cure for lupus. Treatment is symptomatic. With a combination of medication, rest, exercise, proper nutrition, and stress management, most individuals with lupus can often achieve remission or reduce their symptom levels. Medications used in the treatment of lupus may include aspirin and other nonsteroidal anti-inflammatory medications, antimalarials, corticosteroids, and immunosuppressive drugs.

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