View clinical trials related to Dyslipidemias.
Filter by:Clinical Trial Phase III, experimental, simple blind, randomized with two treatment groups, multicentric, longitudinal, to evaluate the therapuetic efficacy to dislipydemias in mexican adult population. This trial includes homogeneus populations that could be comparable by their disease condition, biologic characteristics and sociodemographics characteristics. 2 Treatment groups: Experimental Group: Oral Administration of L-carnitine (1g) + Oral Atorvastatin (20mg), every 24 hours for 6 months. Active control group: Oral Administration of Atorvastatin 20mg every 24 hours for 6 months. Sample Size: 120 subjects, females or males between 35 to 75 years old. Laboratory tests: Hematic biometry, quimical blood components, electrocardiogram and pregnancy urinary test.
This study is medical record review and questionnaire survey on the economic burden on Chinese patients with myocardial infarction accompanied by dyslipidemia in a real-world environment. The primary objective of the study is to investigate the economic burden of disease on patients and the factors influencing it, which may include the mode of treatment for dyslipidemia, drugs for the secondary prevention of myocardial infarction, the outcome of treatment for dyslipidemia, adverse drug reactions and major cardiovascular events. The secondary objectives of the study include: 1. patient compliance with medication; 2. health-related quality of life (HRQoL) in patients.
The presence of dyslipidemia, is a significant cardiovascular risk factor. This factor, however, determines the three-fold increase in cardiometabolic risk when an isolated or mixed dyslipidemia is associated with the presence of diabetes mellitus. Diabetes mellitus is a metabolic alteration resulting in a decrease in insulin secondary to reduced availability of this hormone or an impediment to its normal action or a combination of these factors. . Under normal conditions, the vascular endothelium responds to short-term increases in flow by releasing NO and other endothelium-dependent relaxing factors that dilate the artery. Flow-mediated dilation(FMD) is impaired in atherosclerotic coronary arteries. The supplementation with polyphenols of olive leaves, bergamot extract, gymnema sylvatic extract (gymnemic acid) and phaseolamin (bean protein) significantly improves the glico-lipid balance through an improvement in liver function, an inhibition to more levels of lipid metabolism . Recently, it has been documented how the polyphenolic fraction extracted from bergamot (BPF) administered orally both in animal models with induced hyperlipidemia diet, and in patients with metabolic syndrome, produces a significant and substantial reduction of serum cholesterol, triglycerides and blood levels of glucose. This effect was accompanied by an important improvement in vascular reactivity in patients with hyperlipidemia and high blood sugar, suggesting the potential protective role of BPF in patients with metabolic syndrome and elevated cardiovascular risk. Oleuropeina (Olea Europaea) is also characterized by a peculiar polyphenolic profile. Both fruits and leaves, thanks to their cardioprotective activity, are used as antihypertensive agents and in the treatment of vascular disorders. The gymnemic acid (glycosidic triterpene), extracted from the leaves of Gymnema Sylvestre, is the representative element of the plant. Thanks to its presence in the phytocomplex, it carries out a hypoglycaemic action through two main mechanisms: inhibition of intestinal sugar absorption and increased metabolic transformation of glucose at the cellular level. To better define the interrelations of systemic CRFs, FMD, and effects of chronic nutraceutical supplements we performed clinical evaluations and ultrasound measurements of the flow and diameter responses to forearm cuff occlusion in a large, well characterized community-based cohort.
Background: Homocysteinemia is associated with increased risk of stroke, dyslipidemias, dementia, peripheral vascular disease and coronary artery disease. folic acid is involved in the metabolism of homocysteine. Folic acid supplementation helps to reduce homocysteine levels and lowering of homocysteine may cause improvement in serum lipid profile. In this study we will assess the effect of folic acid supplementation for 6 weeks, on lipid parameter in patients who have dyslipidemia. Methods: It is a placebo controlled randomized trial, consisting of two groups, Group A (n=34) and Group B (n=34). Group A (intervention group) will be given Folic acid supplements and the second group will be given a placebo. After 6 weeks changes in lipid parameters, will be measured in both groups. Discussion: Folic acid is water soluble vitamin also known as vitamin B-9. Folic acid works as co-factor in many biochemical enzymatic reactions. Homocysteine metabolism also requires folic acid, homocysteinemia may worsen renal function, lipid parameter, accelerate atherosclerosis, angiopathies, and progression of dementia, also increase the risk of stroke and coronary artery disease. In this study, Group A (treatment Group) will be given folic acid supplementation while the Group B (Placebo Group) will be given placebo and at the end of 6 weeks, HDL, LDL, Triglycerides and serum cholesterol levels will be measured and compared with the pre-treatment levels. If Post-treatment group shows significant decrease in serum LDL, total cholesterol, triglycerides and increase in HDL then Folic acid supplementation may be routinely recommended for patient with dyslipidemias.
This study aims to explore the determinants of cognitive impairment among Indonesian geriatrics in an Old Age Home.
Compare the pharmacokinetic characteristics and safety between CKD-333 tablet and CKD-330, D086 combination
Post-marketing surveillance of Telostop Plus Tab.
Post-marketing surveillance of Rosuvastatin/Ezetimibe
The purpose of this study is to determine the influence of food consumption timing on the body's response to a zinc supplement
The purpose of this study is to evaluate the efficacy and safety of Pitavastatin versus Pitavastatin/Fenofibrate in complex-dyslipidemia patients.