View clinical trials related to Hyperlipidemias.
Filter by:This study will examine whether fasting and non-fasting lipid measures can provide similar clinical information in order to guide lipid management by primary physicians. It will compare fasting vs. non-fasting lipid measurements in patients with and without diabetes.
People who follow a low-carbohydrate diet typically experience a decrease in triglycerides and increase in HDL-C level, but fail to lower their LDL cholesterol (LDL-C). Such patients may require lipid-lowering therapy. Statins may not be the most effective strategy for patients on this diet, since they typically consume a greater amount of saturated fat and cholesterol. Absorbed cholesterol may contribute more to their circulating plasma LDL-C. We hypothesize that patients following a low carbohydrate diet would experience a significantly greater decrease in LDL-C by taking ezetimibe 10 mg, a drug that blocks cholesterol uptake in the intestine, in addition to simvastatin 20 mg, when compared to taking simvastatin 20 mg alone.
This is a study to assess the safety, efficacy, and tolerability of MK0859 in patients with primary hypercholesterolemia (large amounts of cholesterol in the blood) or mixed hyperlipidemia (high levels of LDL cholesterol, triglycerides, and low levels of HDL cholesterol in blood) This is an early phase trial and some specific protocol information is in progress and not publicly available at this time. (Full information is available to trial participants).
To determine safety and effectiveness of low-dose therapeutic AEGR-733 +/- atorvastatin, ezetimibe or fenofibrate (compared to placebo) on liver fat accumulation measured by Magnetic Resonance Spectroscopy
Fenofibrate is a drug that acts on the PPAR alpha receptors, increasing HDL-cholesterol and decreasing triglyceride levels. The interaction with these receptors has antiatherogenic actions by regulating the expression con key proteins that participate in vascular inflammation, plaque stability and thrombosis. Fenofibrate reduces triglycerides and increases HDL-C in plasma. It also decreases small, dense LDL particles. The use of this drug has resulted in improvement of vascular function measured by endothelial function. Our hypotheses state that fenofibrate will improve: endothelial function, improve HDL antioxidant capacity and size distribution towards a predominance of small HDL particles.
The purpose of the study is to determine whether ezetimibe plus simvastatin will be more effective than simvastatin alone in preventing progression of atherosclerosis of the inner layer of the carotid artery.
A cholesterol/lipid profile screening project of high risk patients with hyperlipidaemia (secondary prevention) who already receive cholesterol-lowering therapy. Lipid profile and rate of patients who are treated to target (which is <100mg/dl for patients with high risk and <70mg/dl for patients at very high risk) are screened (office-based specialists). The doctors therapy decisions after the screening and possible reasons for these decisions will be documented. Our aim is to evaluate dosing habits, to evaluate how many patients are treated to their LDL-C target and to underline the importance of treating patients to their cholesterol targets.
A cholesterol/lipid profile screening project of high risk patients with hyperlipidaemia (secondary prevention) who already receive cholesterol-lowering therapy. Lipid profile and rate of patients who are treated to target (which is <100mg/dl for patients with high risk and <70mg/dl for patients at very high risk) are screened (hospital-based specialists). The doctors therapy decisions after the screening and possible reasons for these decisions will be documented. Our aim is to evaluate dosing habits, to evaluate how many patients are treated to their LDL-C target and to underline the importance of treating patients to their cholesterol targets.
The primary objective of the study is to assess the effects of MK0524A in reducing cholesterol levels in an Asian population.
The purpose of this pilot study is to determine if, during pregnancy, women with GDM have an exaggerated lipid response compared to non-gestational diabetics. If a difference is noted, further studies will explore the possibility of screening gestational diabetics during their pregnancy for hyperlipidemia to determine if prenatal screening can predict postpartum risk for hyperlipidemia. In addition the relationship, if any between maternal lipid dysfunction and placental disease will be explored. This will be a prospective cohort study. As part of routine prenatal care, women receive a one hour glucose challenge test to screen for gestational diabetes. Those women with elevated values then require a three hour glucose tolerance test, which is a diagnostic test for gestational diabetes. All women that are scheduled to receive a three hour GTT will be identified and ask to enroll in this study. 46 women whose three hour GTT is normal and thus do not have GDM, will be compared to 46 women with an abnormal three hour GTT and thus would have the diagnosis of GDM. Enrolled women will have a lipid panel consisting of; total cholesterol, triglycerides, HDL and LDL cholesterol at the time of their fasting glucose blood sample. In addition, a repeat lipid panel will be sent at the time of the third hour sample, to assess changes, if any due to the glucose challenge. Umbilical cord blood samples will be sent in order to obtain newborn lipid profiles. Women in both the GDM and normal groups will be asked to return 6-8 weeks