View clinical trials related to Glucose Intolerance.
Filter by:Subjects with impaired glucose tolerance will be randomized to receive pioglitazone or metformin for 10 weeks. Measurements of insulin sensitivity, body composition, glucose tolerance, and muscle lipid accumulation will be performed. Adipose tissue and muscle biopsies are performed. The goal of the study is to determine whether the lipotoxiciy of impaired glucose tolerance is ameliorated by pioglitazone.
The purpose of this study is to determine if ramipril and/or rosiglitazone prevent the onset of type 2 diabetes.
The primary objectives of the ORIGIN study were: - To determine whether insulin glargine-mediated normoglycemia can reduce cardiovascular morbidity and/or mortality in people at high risk for vascular disease with either Impaired Fasting Glucose (IFG), Impaired Glucose Tolerance (IGT) or early type 2 diabetes; - To determine whether omega-3 fatty acids can reduce cardiovascular mortality in people with IFG, IGT or early type 2 diabetes. The secondary objectives of the insulin glargine study were to determine if insulin glargine-mediated normoglycemia can reduce: - total mortality (all causes); - the risk of diabetic microvascular outcomes; - the rate of progression of IGT or IFG to type 2 diabetes.
The purpose of this study is to investigate the effects of Chromium on glucose tolerance and endothelial function in people at risk for type II diabetes.
Though anti-HIV drugs can dramatically improve the health of people with HIV, some people taking these drugs develop serious long term effects in their metabolism. These effects include problems with bones, increased levels of blood sugar and lipids, and changes in body fat distribution. The purpose of this study is to see how many young women are experiencing these problems and how severe the problems are. This kind of study is the first step in determining how best to treat these problems.
This study will evaluate the safety and effectiveness of the drug rosiglitazone for improving heart function in patients with heart failure and glucose intolerance or type II (adult-onset) diabetes, or both. Because of a lowered sensitivity to the hormone insulin, patients with type II diabetes or glucose-intolerance do not regulate glucose (sugar) effectively. Rosiglitazone is used to treat type II diabetes, but it is not commonly given to patients with heart failure because it can cause leg swelling and, rarely, pulmonary edema. However, patients with heart failure who also have glucose intolerance or type II diabetes generally fare worse than those with heart failure alone, and therapies that decrease insulin resistance may be beneficial to these patients. Patients 21 years of age and older with heart failure and type II diabetes or glucose intolerance, or both, may be eligible for this study. Patients must be stable on current therapy for heart failure and must not have any planned surgeries for coronary artery disease. Candidates will be admitted to the NIH Clinical Center for from 2 to 7 days for screening procedures, which include a medical history and physical examination, blood and urine tests, electrocardiogram (ECG), chest x-ray, magnetic resonance imaging (MRI), exercise testing, and echocardiography (ultrasound test of the heart). Participants will be randomly assigned to receive either rosiglitazone or placebo (an identical-looking pill with no active ingredient). They will take one tablet a day for the first month, one tablet twice a day for the second month, and then two tablets twice a day from the third month to the end of the study at 6 months. During the treatment period, patients will have a history, physical examination, and blood tests every 4 weeks, exercise testing and echocardiography at 3 and 6 months, and urinalysis, electrocardiogram and MRI at 6 months. To check for fluid accumulation in the legs or lungs, patients will report their weight and symptoms every 2 weeks throughout the study. After the 6-month treatment period, patients will be put back on the diabetes medicines they were taking before the study. Their physicians will be notified of possible modifications in treatment for maintaining optimum glucose tolerance. Six months after completing treatment (one year after beginning the study), patients will return to the Clinical Center for blood tests to measure the long-term effects of rosiglitazone and to evaluate progress. They will then be invited to return to the clinic for annual checkups, if possible, or for yearly follow-up by mail or telephone to review their health status.
Type 2 diabetes is more frequent in Japanese Americans than in Japan or the U.S. non-Hispanic white population. This appears to be due to the effects of ''westernization'' to bring out metabolic changes that lead to diabetes. This study will look at whether increased physical activity and dietary changes will reduce or prevent the metabolic changes that lead to type 2 diabetes in Japanese Americans who have impaired glucose tolerance, a condition intermediate between normal glucose tolerance and diabetes.
This study is for women who have already decided to undergo liposuction at Georgetown University Medical Center in Washington, D.C. To take part in this study, a woman must first meet with the plastic surgeons there, and be accepted by them to have liposuction. This study will investigate whether large volume liposuction improves risk factors for heart disease in overweight women with type 2 (adult onset) diabetes, impaired glucose tolerance, or elevated blood insulin levels. Large volume liposuction is the surgical removal of at least 10 pounds (4.5 kg) of body fat, usually from the abdomen, hips or chest. Risk factors for heart disease include high blood pressure and elevated levels of blood lipids (cholesterol and triglycerides), blood glucose (sugar), and blood insulin. Subjects who participate in all parts of this study will receive a total of $930.00. Overweight women 18 years or older with high blood insulin levels, impaired glucose tolerance, or type 2 diabetes, who are planning to have large volume liposuction performed at Georgetown University Medical Center in Washington, D.C., may be eligible for this study. For a subject to be accepted into this study, she must first meet with the plastic surgeons at Georgetown University Medical Center, and they have to agree to perform large volume liposuction. The decision that someone is suitable for liposuction is not under the control of the NIH or of any NIH investigator. Those enrolled will undergo the following procedures at four separate times - before undergoing liposuction, 4 weeks after surgery, 4 months after surgery and 1 year after surgery: - Body measurements - taken with calipers to measure several skinfold thicknesses (the width of a fat fold) and with a tape measure to measure the circumference of parts of the body. - Urine sample and 6-hour urine collection - to test for pregnancy and to evaluate kidney function. - Glucose tolerance test - measures insulin sensitivity and how the body uses sugar, how well insulin works, and insulin sensitivity. The procedure involves placement of two catheters (thin, flexible tubes) through a needle into a vein in each arm. Sugar water is infused into one catheter and 20 minutes into the test a small amount of insulin is injected. Blood samples are drawn from the other catheter at frequent intervals for a total of 5 hours. - Electrocardiogram (ECG) and echocardiography - measure the heart's electrical activity and function. - Abdominal computerized tomography (CT) scan - produces images for measuring body fat in the abdomen. (not done at the 4-week visit). Takes about half an hour to complete. - DXA X-ray - measures body fat, muscle and bone mineral content. Takes about half an hour to complete. - Bod Pod - capsule-like device used to determine the proportion of body weight composed of fat and non-fat tissue. Takes less than 10 minutes - Bioelectric impedance analysis device - measures the proportions of body fat based on electrical conduction of a small electric current. Takes 2-3 minutes. - 24-hour blood pressure monitoring - a device attached to a blood pressure cuff strapped to the arm measures blood pressure every 15 to 30 minutes continuously for 24 hours. - Vascular reactivity tests - a blood pressure cuff is inflated for about 4 minutes before deflating, providing information on the function of the small blood vessels in the skin, as well as an idea of the function level of small blood vessels elsewhere in the body. Takes half an hour. - Blood samples - collected to evaluate kidney and liver function and to measure body lipids, such as cholesterol, minerals, and other substances.
The Diabetes Prevention Program is a nationwide clinical study to answer the question: Can Type 2 diabetes (also called noninsulin-dependent or adult-onset diabetes) be prevented or delayed? The study has recruited volunteers, who are at high risk of developing diabetes, at twenty-five medical centers in the United States. It is sponsored by the National Institute of Diabetes and Digestive and Kidney Diseases of the National Institutes of Health, and other Institute and corporate sponsors. Researchers will evaluate the efficacy of a lifestyle intervention and a pharmacological intervention in preventing or delaying Type 2 diabetes in persons with impaired glucose tolerance (IGT). Each person in the study will be followed for 3 to 6 years.