View clinical trials related to Lipodystrophy.
Filter by:The goals of this study are to find out if fat wasting and weight loss in the arms and legs of HIV patients taking highly active antiretroviral therapy (HAART) are caused by nucleoside/nucleotide reverse transcriptase inhibitors (NRTIs) and if wasting can be reversed if the NRTI is stopped and replaced with other anti-HIV drugs.
This study will evaluate the safety and effectiveness of leptin replacement therapy in patients with lipodystrophy (also called lipoatrophy). Patients have a total or partial loss of fat cells. They also lack the hormone leptin, which is produced by fat cells. The leptin deficiency usually causes high blood lipid (fat) levels and insulin resistance that may lead to diabetes. Patients may have hormone imbalances, fertility problems, large appetite, and liver disease due to fat accumulation. Patients age greater than or equal to 6 months with significant lipodystrophy may be eligible for this study. Participants will be admitted to the NIH Clinical Center for 10 days for the following studies before beginning 12 months of leptin therapy: - Insulin tolerance test - Ultrasound of the liver and, if abnormalities are found, possibly liver biopsies. - Fasting blood tests - Resting metabolic rate - Magnetic resonance imaging of the liver and other organs, and of muscle and fat. - Pelvic ultrasound in women to detect ovarian cysts. - Estimation of body fat - Oral glucose tolerance test - Intravenous glucose tolerance test - Appetite level and food intake - Hormone function tests - Questionnaires to assess activity and mood - 24-hour urine collections Additional studies may include blood tests for genetic studies of lipodystrophy, a muscle biopsy to study muscle proteins involved in regulating energy expenditure before and after leptin replacement, and examination of a surgical specimen (if available) to study molecules that may be involved in energy storage and use. When the above tests are completed, leptin therapy begins. The drug is injected under the skin twice a day for 4 months and then once a day, if feasible. The dose is increased at the 1- and 2-month visits. Follow-up visits at 1, 2, 4, 6, 8 and 12 months after therapy starts include a physical examination, blood tests and a meeting with a dietitian. At the end of 12 months, all baseline studies described above are repeated. Patients record their symptoms weekly throughout the study. Those with diabetes measure their blood glucose levels daily before each meal and at bedtime.
The purpose of this study is to learn whether changing from a type of anti-HIV drug called a protease inhibitor (PI) to another type of anti-HIV drug will help to lower the amount of fats or sugars in the blood. PIs have been effective at keeping HIV viral load (amount of HIV in the blood) down. However, some people who take PIs have higher than normal levels of fats and/or sugars in the blood. Doctors believe that switching to anti-HIV drugs that do not contain PIs will improve the abnormal side effects. This study will test 3 different combinations of non-PI drugs to see which may improve side effects while keeping viral loads low.
The purpose of this study is to find out whether certain anti-HIV drugs (efavirenz [EFV] and nelfinavir [NFV]) affect the amount of certain fat-lowering drugs (atorvastatin, pravastatin, and simvastatin) in the blood. Protease inhibitors (PIs), a type of anti-HIV drug, are known to cause increased lipids (fats) in the blood of HIV-infected patients. EFV also is known to increase blood fats. HIV-infected patients who take PIs and/or EFV may need to take fat-lowering drugs to correct this problem. So it is important to look at possible drug interactions when these drugs are taken together. This study will see if taking EFV or NFV, a protease inhibitor, affects the blood level of simvastatin, atorvastatin, or pravastatin (all fat-lowering drugs). To obtain results more quickly, the study population will be healthy HIV-negative volunteers.
The purpose of this study is to see whether metformin alone, rosiglitazone alone, or metformin and rosiglitazone together will lower insulin levels in the blood and decrease fat in the abdomen or other parts of the body. Studies have shown that certain anti-HIV medications can cause a number of side effects, including high blood sugar (resulting from the body's failure to use insulin), high insulin, and excess fat build-up in the abdominal area. These side effects are known to increase the risk of heart disease. Metformin and rosiglitazone are 2 drugs that have been shown to lower insulin resistance and lessen abdominal fat in patients who are not HIV-infected. This study will investigate the use of these drugs in HIV-infected patients.
The purpose of this study is to compare the safety and effectiveness of fenofibrate and pravastatin in treating HIV-positive patients who have abnormal levels of fat (lipids) in the blood. Increased lipids in the blood associated with HIV infection and anti-HIV drugs is a growing problem. The drugs used in this study are known to reduce certain lipids, but little is known about their safety and effectiveness. This study will see if one of the drugs is safer and more effective than the other, or if combining the drugs is the safest and most effective way to lower lipids. This study has been changed. On June 26, 2001, this study was reviewed by the Data and Safety Monitoring Board (DSMB). The DSMB is an independent board monitoring the progress of the study. The review showed that neither pravastatin nor fenofibrate alone were effective in reaching all the cholesterol and triglyceride goals. There were no safety concerns. It is not known if the combination of fenofibrate and pravastatin is effective and safe. Therefore, it is important to continue this study.
The purpose of this study is to learn how changes in body build affect the lives of people taking anti-HIV medications. By learning this, a set of questions can be created to help understand how changes in body build and image affect people living with HIV infection. A set of questions used to measure body image might be useful in future HIV studies. It may help doctors understand patient concerns about their body image and why some patients stop taking their anti-HIV medications.
HIV infection is a major global health problem. Survival and quality of life for HIV subjects has tremendously improved with the advent of a class of antivirals called protease inhibitors and the utilization of highly active combination therapy. However, such therapy has been associated with a syndrome called lipodystrophy. This lipodystrophy syndrome causes body shape changes; typically thinning and loss of fat from the arms, legs and face, with increased fat appearing in the abdomen and neck. There are also metabolic changes which occur, and subjects can develop increased triglycerides, increased cholesterol and an increased risk for diabetes as indicated by increasing insulin resistance. This study will take HIV positive subjects who have not yet started antiviral medications (treatment naive)and randomly assign them to one of two treatment arms. These treatment arms will be: Sustiva/Zerit/Epivir vs. Viracept/Zerit/Epivir The subjects will be treated and followed for two years and have extensive metabolic testing, skinfold thickness measurements, MRI scans and other measures to determine if and how they are experiencing changes in metabolism or body shape and to discover the mechanism of why this occurs. Understanding the mechanism should allow researchers to design interventions for subjects who have lipodystrophy and strategies to prevent lipodystrophy from occurring to subjects treated with antivirals in the future.
With the advent of highly active anti-retroviral therapy(HAART), patients with HIV disease are developing a series of metabolic abnormalities including peripheral fat wasting, increase in truncal fat, high serum triglyceride levels, insulin(a hormone that controls blood sugar) resistance with an increased incidence of Type 2 Diabetes Mellitus and elevated blood pressure. The premise of this study is that abnormalities in the ability of fat and muscle tissue to respond to the hormone insulin may be the cause of the diabetes mellitus, high serum triglyceride levels and abnormal fat distribution. The purpose of the study is to assess how insulin resistant patients with HIV disease are and if their fat and muscle tissue are responding abnormally to insulin. This is done by administering insulin and taking small tissue samples of fat and muscle from the upper thigh and assessing how good insulin acts in these tissues. Patients with HIV disease will be admitted into the study after undergoing a screening medical history and examination. Once patients qualify, they will have their insulin resistance measured as well as the response of their fat and muscle to insulin; blood levels of glucose (sugar), cholesterol and triglycerides will be measured; body fat will be assessed using radiological tests; a detailed medical history will be obtained to assess risk factors for developing this syndrome. Patients who are found to be insulin resistant will be offered a trial of an insulin sensitizing agent, called Avandia, for 6-12 weeks. It is hoped that the Avandia will restore the body's ability to respond normally to insulin (as it does in patients with Diabetes) and perhaps improve the fat abnormalities as well. All the same measures will be performed at the end of the course of Avandia as were done at baseline. Patients who are not insulin resistant will be asked to come back yearly to assess whether they develop insulin resistance over time. This study will continue to recruit patients over the next 3 years.
The purpose of this study is to see how beginning or changing anti-HIV medications affects the body composition (weight, height, growth, body fat, and muscle mass, or fat and muscle distribution) of HIV-infected children. This study also looks at how changes in body composition relate to changes in viral load (level of HIV in the blood), CD4 cell counts, height, and weight in HIV-infected children. This study also compares changes in body composition to levels of cytokines (proteins in the body that affect some immune cells) in HIV-infected children who are beginning or changing anti-HIV therapy. Though studies have been done on adults, little is known about the effects of HIV infection and anti-HIV drugs on body composition in children. One theory is that changes in body composition can predict the failure of anti-HIV treatment. If this is true, body composition measurements can be as useful as CD4+ cell counts in determining drug effectiveness.