View clinical trials related to Dyslipidemia.
Filter by:The Dietary Approaches to Stop Hypertension (DASH) trial has been shown to reduce blood pressure and plasma total and LDL-cholesterol (C) compared to a Western diet, but shows no benefit on other blood lipid variables associated with cardiovascular disease (CVD) risk, namely HDL-cholesterol and triglycerides. The overall objective of this study is to determine whether modification of the DASH diet by substituting carbohydrate with fat will result in improvements in multiple biomarkers of CVD risk. Specifically, the investigators will test the hypotheses that modification of the DASH diet by reducing carbohydrate, primarily in the form of simple sugars and glycemic starches, and allowing for a more liberal intake of total and saturated fat, primarily from dairy foods, will: (1) improve lipoprotein markers of CVD risk (reduced total/HDL-C ratio, apolipoprotein B, small LDL particles, and increased HDL-C, apoAI, and large HDL particles); and (2) result in comparable reductions of systolic and diastolic blood pressure to those achieved with the standard DASH diet. The investigators will also assess the effects of the modified DASH diet on markers of insulin resistance and inflammation. Our main hypotheses will be tested by a controlled dietary intervention conducted in 40 healthy men and women who will be randomly allocated to consume, for 3 weeks each, a control Western diet, a standard DASH diet, and a modified low-carbohydrate DASH diet, separated by 2-week washout periods.
Pitavastatin, a representative statin-series anti-dyslipidemic drug, and Valsartan, a representative ARB-series anti-hypertensive drug, have been authorized for use also in South Korea. They have been tested in many countries and proved to be effective and safe. The concurrence of dyslipidemia and hypertension has a higher rate, hence statin-series drugs and antihypertensive drugs are simultaneously administered to such patients. The combined administration of statin-series drugs and CCB-series drugs have.
The study will enroll 68 overweight male and female subjects with a high (> 2 3dl-can soda/day) consumption of sweetened beverage per day. After a run-in period of 4 weeks, subjects will be randomized to either a 12-week intervention arm in which sweetened beverages will be replaced by artificially sweetened, calorie-free beverages, or to a control arm. The following measurements will be performed at the end of the run-in period and at the end of the intervention period - intrahepatic fat concentration - visceral fat volume - changes in day-long metabolic profile from baseline(plasma glucose, insulin, and triglyceride concentrations) - changes in food intake and daily energy, carbohydrate and sugars intake from baseline
This is a multi-centre, cross-sectional, chart review study to investigate cholesterol goal attainment rates defined by modified NCEP-ATP III guidelines and define its possible determinants among Korean dyslipidemic patients
Although much effort has been done to lower LDL-cholesterol concentrations, there is still a substantial risk for cardiovascular disease (CVD). Another strategy to lower the risk for CVD is elevating the HDL-cholesterol (HDL-C). Both in vitro and in vivo studies showed that elevating HDL-C or apolipoprotein A-I (Apo A-I) levels protect against CVD. However, despite many initiatives, no new widely applicable intervention strategies with proven efficacy have been developed. Epidemiologic studies have shown that a higher polyphenol intake is associated with a lower risk for CVD. Resveratrol, a polyphenol, could, through several beneficial mechanisms, exert a positive effect on formation of atherosclerotic plaques and thus on developing CVD. It has been shown in animals that resveratrol elevates PPAR-alpha activity. This may lead to elevated apo A-I and HDL-C levels in the blood. However, these effects are not shown in human intervention studies.
The aim of this study is primarily to investigate the ability of antioxidants found in orange juice (OJ) to improve the serum lipid profile. Overweight or mildly obese men, who are otherwise healthy, but with elevated serum total cholesterol concentration will be recruited. The time commitment for subjects is ~14wks. Subjects will attend the laboratory on 5 occasions after fasting from midnight. The 1st is a medical screening. Laboratory visits 2 & 5 will take ~90min and will be separated by 3 months, during which time subjects will consume 250ml of an orange drink (either OJ or an orange flavoured control drink) once a day. During visits 2 & 5, subjects will have a scan to assess their %body fat using a low-dose x-ray machine, a 20ml blood sample taken and a small sample of fat tissue (about the size of a haricot bean)taken from underneath the skin of the belly. Subjects will record their food intake for 3-days in weeks 3, 7 and 11 of consuming the drink, and come to the lab for visits 3&4 during weeks 4&8. Laboratory visits 3&4 repeat measurements taken in the 1st (screening) visit.
PF-04950615 is a new investigational hypercholesterolemic agent that is being tested in this study to evaluate if it can lower LDL cholesterol.
This study will investigate the effect of PF-04950615, a new investigational lipid lowering agent, on LDL-C and other lipids.
This study will evaluate whether fasting/postprandial serum ApoB-48 levels are increased in diabetic participants compared to nondiabetic participants with the same range of serum LDL-C levels, and whether ApoB-48 levels can be used, along with LDL-C levels, to identify potential cardiovascular disease risk.
The purpose of this study is to compare rates and risk of primary cardiovascular events among elderly patients newly initiating therapy with atorvastatin or simvastatin. The specific objectives for this project are to: 1) examine the demographic and clinical characteristics of the elderly patients in whom atorvastatin or simvastatin was newly initiated; and 2) compare cardiovascular event rates in elderly patients in whom atorvastatin or simvastatin was newly initiated.