101 Clinical Trials for Various Conditions
Background: People with familial partial lipodystrophy (FPLD) do not store fat in the body normally. This can lead to serious illnesses such as diabetes and heart disease. To learn more about FPLD, researchers want to compare the fat tissue in people with this disease to the fat tissue of healthy people. Objective: To collect and analyze samples of fat tissue in people with and without FPLD. Eligibility: People aged 18 to 65 years with FPLD. Healthy adults are also needed. Design: Participants will be screened. They will have a physical exam. The size and shape of their body will be measured. They will have an imaging scan to measure their bones, muscle, and fat. Participants will be given heavy water to drink at home. The water contains a tracer to help measure the fat in their blood. They will drink 1 vial 3 times a day. After drinking the water for 9 days, participants will come to the clinic for a 3-day stay. They will eat only foods provided by the hospital; the foods will contain tracers. A needle will be inserted into a vein in the arm; participants will receive infusions of other tracers through this needle into their blood; this needle will also be used to draw blood samples for testing. On their third day in the clinic, participants will have biopsies: Small samples of fat will be removed from under the skin on the belly and thigh. Participants may return for a follow-up visit 8 days after leaving the clinic. Blood draws and fat tissue biopsies will be repeated.
Background: Lipodystrophy is a health problem in which the body does not have enough fat tissue. People with lipodystrophy may not make enough of the hormone leptin. Leptin regulates hunger. Low leptin levels trigger hunger. People with lipodystrophy can have many health problems. They may take a drug (metreleptin) that mimics leptin. Little is known about how taking metreleptin may affect a pregnancy. Metreleptin may be helpful or harmful to pregnant women. It may also affect the health of the child who is born. Objective: This natural history study will collect data about the effects of taking metreleptin while pregnant. Eligibility: Women aged 18 years or older with lipodystrophy who have been pregnant. Women who did and who did not take metreleptin during their pregnancies are needed. Children of women with lipodystrophy who took this drug during pregnancy are also needed. Design: Participants will have 1 study visit. This visit may be by phone, by telehealth, or in-person. Participants will answer questions about their pregnancies. They will discuss any health problems they had. They will be asked about any medicines they took before and during their pregnancies. They will be asked about the health of their children. Participants medical records will be reviewed. Participants may need to provide a blood sample. They may also be asked to provide a sample of breastmilk. Participants children may also be asked to provide a blood sample....
MYALEPT™ (metreleptin) has been approved as an adjunct to diet as replacement therapy to treat the complications of leptin deficiency in patients with congenital or acquired generalized lipodystrophy (MYALEPT Prescribing Information). This study is a multicenter, open-label, Phase 4 trial to provide an assessment of the immunogenicity associated with metreleptin and of any major potential risks due to development of antibodies to metreleptin. The study is being conducted to comply with a postmarketing requirement.
This is a single-center, open-label study to evaluate the efficacy of AKCEA-ANGPTL3-LRx for reduction of fasting triglycerides in participants with familial partial lipodystrophy.
Background: Partial lipodystrophy is a deficiency of body fat in parts of the body (usually the arms and legs). People with partial lipodystrophy often get high blood triglyceride (fat) level, insulin resistance, diabetes and other problems. Researchers think the new drug ISIS 304801 can help treat health problems caused by partial lipodystrophy. Objective: To see if ISIS 304801 will improve blood fat (triglyceride levels), diabetes, and liver disease, and reduce some risks for heart disease caused by partial lipodystrophy. Eligibility: Adults at least 18 years old with partial lipodystrophy. Design: Participants will be screened during a 1-week stay at NIH. They will have: Blood and urine tests Physical exam. Assignment to get either the study drug or placebo. Instructions for how to inject the drug. Body measurements. Heart tests. Participants will give themselves injections of the drug or placebo once a week at home. Some may test blood sugar by finger pricks. They will have monthly phone calls and nurse visits to take blood tests. After 4 months, participants may continue the study for 1 year. All participants will get the study drug. Participants will have study visits at NIH every 4 months. These may include: Insulin sensitivity measurement: Insulin and sugar will be infused through 2 intravenous (IV) lines in the arms. Blood will be drawn. Sugar and fat metabolism measured by IV infusions and blood tests. Special x-ray scan to measure body fat. Liquid meal then blood collected by IV catheter in the arm. Magnetic resonance imaging scans. Neck ultrasound. Questionnaires. Liver biopsy (optional) Injection of heparin (a blood thinner) before a blood test. After finishing the drug, participants will have 1 nurse visit and 1 visit to NIH. ...
Lipodystrophy Connect is an online survey tool designed to collect demographic data and health information from individuals with Lipodystrophy.
Background: - Generalized lipodystrophy can cause high blood fat levels and resistance to insulin. This can lead to health problems including diabetes. Researchers have found that the drug metreleptin improves health in people with this disease. Objective: - To test the safety and effectiveness of metreleptin. Eligibility: * People ages 6 months and older with generalized lipodystrophy who: * have received metreleptin through NIH studies AND * cannot get it through approved or compassionate use mechanisms in their home country. Design: * Participants will come to NIH approximately every 6 months during year one, then every 1 2 years. Financial assistance may be available for travel within the U.S. * At visits, participants will get a supply of metreleptin to take home for daily injections. They will have: * plastic catheter placed in an arm vein. * blood tests, urine collection, and physical exam. * oral glucose tolerance test, drinking a sweet liquid. * ultrasound of the heart, liver, uterus, and ovaries. A gel and a probe are placed on the skin and pictures are taken of the organs. * echocardiogram, which takes pictures of the heart with sound waves. * Resting Metabolic Rate taken. A plastic hood is worn over the head while the oxygen they breathe is measured. * Participants will have up to 3 DEXA scan x-rays per year. * Participants may have: * annual bone x-rays. * liver biopsies every few years. A needle will be inserted into the liver to obtain a small piece. Participants will sign a separate consent for this. * Participants must be seen regularly by their local doctors and have blood tests at least every 3 6 months at home.
Background: - Partial lipodystrophy can cause high blood fat levels and resistance to insulin. This can lead to health problems including diabetes. Researchers have found that the drug metreleptin improves health in people with this disease. Objective: - To test the safety and effectiveness of metreleptin. Eligibility: * People age 6 months and older with partial lipodystrophy who * have received metreleptin through NIH studies and shown improvement AND * cannot get metreleptin other ways. Design: * Participants will come to NIH approximately every 6 months during year one, then every 1 2 years. Financial assistance may be available for travel within the U.S. * At visits, participants will get a supply of metreleptin to take home for daily injections, or it can be shipped to them inside the U.S. They will have: * plastic catheter placed in an arm vein. * blood tests, urine collection, and physical exam. * oral glucose tolerance test, drinking a sweet liquid. * ultrasound of the heart, liver, uterus, and ovaries. A gel and a probe are placed on the skin and pictures are taken of the organs. * echocardiogram, which takes pictures of the heart with sound waves. * Resting Metabolic Rate taken. A plastic hood is worn over the head while the oxygen they breathe is measured. * Participants will have up to 3 DEXA scan x-rays per year. * Participants may have: * annual bone x-rays. * liver biopsies every few years. A needle will be inserted into the liver to obtain a small piece. Participants will sign a separate consent for this. * Participants must be seen regularly by their local doctors and have blood tests at least every 3-6 months at home.
Background: - Lipodystrophy is a condition where people do not have enough fat in the body. People with lipodystrophy can have problems such as diabetes or an enlarged liver. Researchers are looking at how leptin, a hormone produced by fat cells, can help people with these problems. Leptin helps control appetite and how the body stores food. Taking leptin can help people with lipodystrophy eat less food, which may help treat diabetes and other problems. To better understand how leptin works, researchers want to do an inpatient study on leptin treatment in people with lipodystrophy. Objectives: - To study how leptin treatment affects lipodystrophy. Eligibility: - Individuals between 14 and 70 years of age who have lipodystrophy. Design: * All participants will have a 19-day stay at the National Institutes of Health Clinical Center. One group of participants will have tests for 5 days before starting to take leptin. They will then take leptin for 2 weeks, and have more tests. The other group of participants will have tests for 5 days while taking leptin. They will then take stop taking leptin for 2 weeks, and have more tests, and then they will start taking leptin again. * Participants will have regular blood and urine tests during the visit. Some of the blood tests will look at insulin levels. Some will look at how the body metabolizes sugar and fat. Other tests will check hormone levels, especially of reproductive hormones. * During the visit, participants will spend 3 separate days in a metabolic chamber, a special room that measures how many calories the body uses. Urine samples will be collected during these stays. * Participants will also have several body imaging studies, including magnetic resonance imaging and a body composition scan. * Physical activity will be tested with an exercise bicycle and an electronic activity monitor. * Participants will be asked questions about hunger and comfort levels throughout the stay.
This study involves research about an investigational medicine called metreleptin. The reason for this study is to find out how metreleptin can improve non-alcoholic steatohepatitis or nonalcoholic fatty liver disease associated with lipodystrophy, a rare disorder associated with abnormal loss of the body's fat tissue. In this study, metreleptin is considered to be investigational for the treatment of lipodystrophy. Metreleptin will be given via injections under the skin. We plan to continue therapy for a period of one year and evaluate the change in liver disease by a liver biopsy. We will also follow the metabolic parameters (e.g. blood cholesterol, liver function, insulin resistance) and body composition characteristics (e.g. the pattern of fat distribution in the body).
This study is being done to better understand why people with HIV who have taken drugs for HIV begin to show abnormal changes in fat loss or fat gain in their bodies. This condition is called lipodystrophy. Patients who take medicine for HIV and who have lipodystrophy report loss of subcutaneous (sc) fat from the arms, legs, and face and excess fat gain in the neck and truncal region. They also more likely to have problems with insulin in the body, high fat levels in the blood and diabetes. The reason that lipodystrophy develops is not fully understood although some HIV drugs have are very likely the cause. The complications pose an increased risk of fat blockage forming in the arteries making you more at risk for heart problems in the future. Changes in body fat can cause physical discomfort and psychological distress. Management of these problems can be a challenge for the patient's doctor. The investigators propose data collection to determine if there is more than one reason why this might happen in some people and not in others. Laboratory samples being collected: 1) special imaging of the liver; 2) fat collected by needle from the mid thigh and mid-shoulder areas; 3) blood samples to measure the virus, t-cells, fats, and other markers of how the patient's body is handling the virus. This study is being done because science does not fully understand why some patients with HIV who take medicines for the virus have abnormal fat loss or gain and some do not. This research study is intended to help us better understand why and how this happens.
Lipodystrophies represent a therapeutic challenge with regards to insulin resistance, hypertriglyceridemia and fatty liver which often is coupled with significant adipose tissue loss. The purpose of the study is to examine the safety and efficacy of Leptin on subjects with lipodystrophy.
This is an open-label study to provide metreleptin for the treatment of diabetes mellitus and/or hypertriglyceridemia associated with lipodystrophy. This study intends to provide guidance to investigators with respect to identification of appropriate subjects for metreleptin treatment, guidance on metreleptin dosing, and collection of safety and efficacy data following metreleptin treatment in this population
Assessing the Efficacy and Long-Term Safety of a 2 mg dose of TH9507, a Growth Hormone-Releasing Factor Analog, in HIV Subjects with Excess Abdominal Fat Accumulation
To determine the efficacy and safety of 4 therapeutic interventions on HAART-Induced lipodystrophy. The interventions are: 1) Dietary - the effect of a high carbohydrate vs.a high cis-monounsaturated fatty acid diet. 2) The effect of aerobic exercise with dietary advice. 3) The effect of Omega-3 Fish Oil Capsules. 4) The effect of leptin therapy. These interventions are aimed at improving the metabolic complications of HAART therapy such as elevated lipids, and insulin resistance or diabetes.
Lipodystrophies represent a therapeutic challenge with regards to the management of the diabetes, insulin resistance, hypertriglyceridemia and fatty liver which frequently present in conjunction with significant adipose tissue loss. The purpose of the study and it's four subprojects is to examine the safety and efficacy of various novel interventions designed to improve or resolve the fatty liver, hypertriglyceridemia, and insulin resistance or diabetes that is seen in these patients.
The metabolic and molecular basis of lipodystrophy syndrome in HIV-infected patients is not known. Whether besides protease inhibitors, other antiretroviral drugs, HIV infection and reduction in viral load contribute to the development of lipodystrophy syndrome is not clear. The project therefore has the following aims: 1) to characterize metabolic abnormalities and changes in body fat distribution, 2) to develop objective criteria for defining the syndrome and to ascertain prognostic indicators and 3) to elucidate the molecular basis of the lipodystrophy syndrome in HIV-infected patients.
To evaluate the efficacy and safety of cholic acid therapy in treating lipodystrophy patients with hepatic steatosis. This is a randomized, double-blind, placebo-controlled cross-over study.
The purpose of this study is to examine whether replacing leptin to normal levels can reverse the changes in fat distribution, lipid profile, and other metabolic problems associated with highly active antiretroviral therapy (HAART)-induced lipodystrophy and metabolic syndrome in HIV patients.
HIV lipodystrophy affects a significant proportion of patients treated with combination antiretroviral therapy (ART) and is characterized by excess visceral fat accumulation and loss of extremity and subcutaneous fat, in association with dyslipidemia and insulin resistance. Data from a previous randomized, placebo-controlled trial demonstrated that daily administration of 2mg TH9507, a growth hormone releasing factor (GRF), to HIV patients with an excess of abdominal fat accumulation for 12 weeks resulted in decreases in visceral adipose tissue (VAT) and trunk fat, with no significant changes in limb fat and subcutaneous adipose tissue (SAT). This study is aimed at further assessing the efficacy and safety of 2 mg TH9507 in a larger population of HIV patients treated with ART and experiencing an excess of abdominal fat accumulation.
This study will investigate long-term, low-dose growth hormone administration in HIV-infected patients with reduced growth hormone (GH) secretion and increased visceral adiposity. We hypothesize that low-dose growth hormone will reduce visceral fat. Secondary endpoints will include measures of insulin-like growth factor-1 (IGF-1), glucose homeostasis, lipids, blood pressure,bone density, cardiovascular risk and safety parameters.
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.
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.
This study will evaluate the safety and effectiveness of the leptin replacement therapy in treating lipoatrophy or lipodystrophy-a condition in which there is a total or partial loss of fat cells. Patients with lipodystrophy lack sufficient leptin, because this hormone 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, uncontrolled appetite, and liver disease due to fat accumulation. Patients 15 years and older with lipodystrophy are eligible for this study. Candidates are screened with a medical history and physical examination, and fasting blood tests. Those enrolled undergo the following additional procedures: * Ultrasound of the liver and, if abnormalities are found, possibly a liver biopsy * Resting metabolic rate measurement - measures the amount of oxygen breathed at rest in order to calculate how many calories are required to maintain resting body functions * Magnetic resonance imaging of the liver and other organs, and of muscle and fat * Estimation of body fat - measurements of height, weight, hip size, and skin folds over the arms and abdomen to estimate body fat content * Insulin tolerance test - measures blood glucose levels after administration of insulin. Insulin is given through an intravenous (IV) catheter (a thin tube placed in a vein) and blood is drawn 5 minutes before the test begins, when the test begins, and 5, 10, 15, 20 and 30 minutes into the test * Oral glucose tolerance test - measures blood glucose and insulin levels after drinking a glucose (sugar) solution. Blood samples are drawn through an IV catheter 15 minutes before the test begins, at the time the test begins, and 30, 60, 90 and 180 minutes into the test * Intravenous glucose tolerance test - measures tissue response to insulin and glucose after glucose is injected into a vein. The glucose injection is followed by a short infusion of insulin and then blood samples are taken over 3 hours to measure insulin and glucose levels * Appetite level and food intake - measures hunger level and caloric intake. Patients are questioned about their hunger level, given a variety of foods they may choose to eat and questioned again at various intervals about hunger level. On another day, patients are given breakfast (usually a milkshake) and when they want to eat again, the appetite level and caloric intake study is repeated. * Hormone function tests - the function of three hormones influenced by leptin (corticotropin-releasing hormone, thyrotropin-releasing hormone and luteinizing hormone-releasing hormone) are assessed. The hormones are injected intravenously and then blood samples are drawn. When all the tests are completed, leptin therapy begins. The drug is injected under the skin twice a day for 4 months by the patient or a caregiver (similar to self-administered insulin injections for diabetes). Blood is drawn once a month to monitor the effects of treatment and drug side effects. At clinic visits scheduled 1, 2 and 4 months after therapy starts, patients have a physical examination and meet with a dietitian. Medication dosage is also increased at these visits. At the end of 4 months, all baseline studies described above are repeated. Throughout the study, all patients complete a form once a week, in which they record their symptoms. Patients with diabetes also measure their blood glucose levels at home before each meal and at bedtime.
This Phase 3 study is an Open Label Extension of the APG-20 Study To Evaluate the Long-term Safety and Efficacy of Daily Subcutaneous Metreleptin Treatment in Subjects with Partial Lipodystrophy
This study is researching an experimental drug called mibavademab. The study is focused on participants with GLD who have been on metreleptin treatment for at least 6 months with no change in dose for the last 3 months. The aim of the study is to see how safe and tolerable mibavademab is when switching from treatment with metreleptin. The study is looking at several other research questions, including: * What side effects may happen from taking mibavademab * How much mibavademab is in the blood at different times * Whether the body makes antibodies against mibavademab (which could make mibavademab less effective or could lead to side effects)
Two cohorts are being studied based on leptin levels. Cohort A is composed of patients with baseline leptin \<8.0 ng/mL and Cohort B is composed of patients with baseline leptin 8.0 to ≤20.0 ng/mL The primary objectives will be evaluated for patients in Cohort A only: * To evaluate the effect of REGN4461 on fasting triglycerides (TG) in patients with elevated baseline fasting TG * To evaluate the effect of REGN4461 on hyperglycemia in patients with elevated baseline Hemoglobin A1c (HbA1c) The following secondary objectives of the study will be evaluated for Cohort B and for the combined set of Cohorts A plus B: * To evaluate the effect of REGN4461 on fasting TG levels in patients with hypertriglyceridemia * To evaluate the effect of REGN4461 on glycemic control in patients with hyperglycemia The following secondary objectives of the study will be evaluated for Cohorts A and B separately, and for the combined set of Cohorts A plus B: * To evaluate the effect of REGN4461 on liver fat in patients with hepatic steatosis * To evaluate the effect of REGN4461 on hunger * To evaluate safety and tolerability of REGN4461 * To characterize the concentration profile of REGN4461 over time * To assess immunogenicity to REGN4461
The primary objectives of the study are to estimate the effects of REGN4461 on glycemic parameters in the subset of patients with elevated baseline hemoglobin A1c levels (HbA1c ≥7%) and to estimate the effects of REGN4461 on fasting triglyceride levels in the subset of patients with elevated baseline fasting triglycerides (TG ≥250 mg/dL). The secondary objectives are to estimate the effects of REGN4461 on a composite endpoint of changes in either HbA1c or fasting TG for all patients, estimate the effects of 3 dose levels of REGN4461 on glycemic parameters and fasting TG, to estimate the effects of REGN4461 on insulin sensitivity, to evaluate the safety and tolerability of REGN4461 and to evaluate the pharmacokinetics (PK) and immunogenicity of REGN4461.
This proposal will evaluate the glucocorticoid mediated changes in body fat distribution and metabolism that occur in patients with Cushing's disease. The objective is to identify the mechanisms that influence both the accumulation of lipodystrophic fat and also the changes in energy expenditure and metabolism that accompany them. The study is designed to determine if the high cortisol and AgRP levels in the blood of people living with Cushing's syndrome, either from taking steroid medications or from tumors, impact body fat and metabolism by turning off brown fat, which is a type of fat that increases one's metabolism.