View clinical trials related to Hypertriglyceridemia.
Filter by:The major purpose of this study is to examine the effect of two sources of dietary omega-3 fatty acids, each given at two doses, on potential health benefits related to cardiovascular disease prevention. The two sources of dietary omega-3 fatty acids will be fish oil, and flaxseed oil.
The purpose of the study is to compare the efficacy and tolerability of fenofibrate 160 mg and niacin 1500 mg in patients with hypertriglyceridemia and low HDL-cholesterol. The primary end point is the percent change of apoB/A1 and the secondary end points are other lipid parameters and biomarkers.
Children with Chronic Kidney Disease (CKD) are at very high risk for cardiovascular morbidity and mortality. Hyper-lipidemia, a traditional risk factor for Cardiovascular Disease (CVD), occurs early in the progression of kidney failure; timely identification and intervention is prudent. Currently, there is no known effective therapy for hypertriglyceridemia, the most common lipid abnormality. n-3FA, in doses ranging from 2-6 g/day have effectively lowered elevated triglyceride (TG) levels by 20-50% in a variety of adult populations; however, their use in children with CKD has not been tested in a randomized controlled fashion. This study will provide important information on the safety, efficacy and tolerance of n-3FA in lowering elevated TG levels in children and adolescents with CKD.
The primary objective is to determine the efficacy of AMR101 (ethyl icosapentate) compared to placebo in lowering fasting triglyceride levels in patients with very high fasting triglyceride levels ≥ 500 and ≤ 2000 mg/dL.
The primary objective is to determine the efficacy of AMR101 (ethyl icosapentate) compared to placebo in lowering high fasting triglyceride levels in patients with high risk for cardiovascular disease and fasting triglyceride levels ≥ 200 and < 500 mg/dL.
The study seeks to determine if the use of omega three fatty acids in individuals infected with HIV and with high triglycerides leads to improved triglyceride levels, better blood vessel function and decrease in the amount of obstruction in blood vessels.
The objectives of this study are to assess the effects of 4 g/d prescription omega-3 acid ethyl esters (POM3), compared with a placebo, on indices of insulin sensitivity and secretion, as well as aspects of the fasting and postprandial lipid and lipoprotein profiles, in subjects with hypertriglyceridemia.
Fenofibrate is one of the best options for treating hypertriglyceridemia. In the majority of patients, fenofibrate lowers triglycerides (TG) by 24-55% and improves HDL- and LDL-cholesterol. However, the response to fenofibrate is highly variable and currently there are no screening tests to identify poor responders. Genetic and environmental factors may explain the high variability in response. Although exploratory in nature, this study is of clinical and public health importance because prediction of drug response among those with hypertriglyceridemia is clinically challenging and fenofibrate prescription costs are large ($90 to $130/patient/month); targeting the responsive patients at the outset will help improve treatment outcomes at a lower cost. If successful, the investigators will propose to conduct a large, randomized trial on the effect of pre-prescription genotyping on fenofibrate response.
In subjects on boosted protease inhibitor (PI)-regimens who have elevated triglycerides, a switch to fosamprenavir/ritonavir once daily followed by the addition of Lovaza will result in 30% of patients achieving a reduction in fasting triglycerides < 200 mg /dL while maintaining virologic suppression.
The investigators hypothesize that fenofibrate and fatty acid may have different metabolic effects in hypertriglyceridemic patients