View clinical trials related to Lipid Metabolism, Inborn Errors.
Filter by:To test whether active pneumococci immunization can alleviate inflammation and improve cholesterol metabolism in lysosomal lipid storage diseases and associated metabolic disorders.
This study aims to characterize the pathophysiological mechanisms of 21 different metabolic myopathies. The study will focus on exercise capacity and the metabolic derangement during exercise.
The purpose of this 3-year, multi-site, non-randomized, prospective, observational study is to characterize the natural history of Pearson Syndrome. The Syndrome is a rare mitochondrial disorder due to a large-scale mtDNA deletion. Children typically present in their 1st two years of life (most in infancy) with anemia and/or pancreatitis. Most individuals with Pearson Syndrome die in childhood. Those who survive evolve to Kearns-Sayre Syndrome/Chronic Progressive External Ophthalmoplegia (KSS/CPEO) although accurate survival estimates are not yet known.
Treatment of Pediatric Subjects with Pearson syndrome
The aim of this study is to determine whether high high density lipoprotein-cholesterol(HDL-C) level and low Cholesteryl Ester Transfer Protein(CETP) activity is atherogenic or not in subjects who received health checkups. We investigate the association between CETP activities and the severity of atherosclerosis assessed by intima-media thickness (IMT) and compare the atherogenic change between in subjects with high HDL-C level, low HDL-C level, high CETP activities and low CETP activities by examining the morbidity rate of atherogenic diseases, the rate of ischemic electrocardiography(ECG) change, Calc Score of artery from chest X-ray, Ankle Brachial Index/Pulse Wave Velocity and various serum atherogenic markers. And we also examine the correlation between normal lipid profile and concentration, activity and function of surface lipoprotein in subjects with variety of lipoprotein levels, including patients with hyper-LDL-cholesterolemia, hyper-HDL-cholesterolemia with low or no CETP activity, patients with high level of remnant cholesterol or hyperlipoproteinemia of apolipoprotein(Apo)B-48.
The purpose of this study is to investigate the use of radiolabeled particulate cholesterol administered intravenously in association with albumin, as a method to study reverse cholesterol transport (RCT) in people carrying mutations in genes known to affect high density lipoprotein (HDL) metabolism by analyzing changes in the tracer activity in total plasma, lipoproteins fractions and feces.
Ezetimibe has become the treatment choice for patients with sitosterolemia. Ezetimibe is an inhibitor of cholesterol absorption from the gastrointestinal tract. The purpose of this study is to determine if ezetimibe improves whole body plant sterol and cholesterol homeostasis.
Neutral Lipid Storage Disease With Myopath (NLSDM) is a disease caused by a defect in the PNPLA2 gene encoding ATGL. Patients with NLSDM accumulate triglycerides and exhibit muscle weakness, cardiac failure and hepatosteatosis. Most of these patients die at young age due to cardiac failure. Not much is known about the underlying mechanisms, though recently it was discovered that PPAR activation in ATGL-/- mice was impaired leading to decreased mitochondrial function, lipid accumulation and cardiac failure resulting in death at young age. Activation of PPARs, by treatment with fibrates rescued the phenotype and reduced mortality rates in these mice. These findings may have a major impact for patients with NLSDM if these results can be translated to humans. Therefore, the investigators would like to evaluate the beneficial effects of fibrate treatment on muscle mitochondrial and cardiac function in patients with NLSDM. Patients will be treated with fibrates during a period of 28 weeks. Baseline measurements will be performed prior to the study and after treatment. Cardiac and muscular lipid accumulation, cardiac function, mitochondrial function and insulin sensitivity will be assessed during these baseline measurements.
The investigators propose to evaluate the effect of bezafibrate on metabolism during exercise in 22 adult patients affected with carnitine palmitoyltransferase II (CPTII) or very-long chain acyl-CoA-dehydrogenase (VLCAD) deficiencies. This study will be an 9-month, randomized, double-blind, placebo-controlled crossover trial. The trial will be conducted in two centers: Institut de Myologie, Pitié-Salpêtrière Hospital in France, and Rigshospitalet, University of Copenhagen, in Denmark. The main criteria for assessing the potential effect of this drug will be the fat oxidation rate studied during a moderate workload on cycle ergometer, after infusion of stable isotopes (palmitate and glucose tracers).
Purpose: People with a genetic defect in the ability to burn fat can also develop a problem with the nerves in their feet. The nerve problem, or neuropathy, can limit their ability to walk. Part of the treatment of their genetic defect in the ability to burn fat is to eat a very low fat diet. Vitamin E is found only in fatty foods like oils and nuts. People with a genetic defect in the ability to burn fat may have low vitamin E because of their low fat diet. The purpose of this study is to test whether vitamin E supplements can improve the nerve function in the feet of people with a genetic defect in the ability to burn fat. Procedures: Blood samples will be drawn at the beginning of the study, after 2 months and after 6 months of vitamin E supplements. The blood will be analyzed for plasma vitamin E concentrations. Around the time of each blood draw subjects will record all the food and beverages he or she consumes for three days. The subject will send the record to the investigator. Subjects will have a physical exam by a doctor specializing in nerves, a neurologist before and after taking vitamin E. They will have nerve function measured with a test called a nerve conduction velocity or NCV. Subjects will be given 800 international units (IU) of vitamin E per day for 6 months.