UMLS:C0948265 - FACTA Search

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Query: UMLS:C0948265 (metabolic syndrome)
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Hypercholesterolemia is one of the major contributors to atherosclerosis and coronary heart disease in our society. The National Cholesterol Education Program of the National Institutes of Health has created a set of guidelines that standardize the clinical assessment and management of hypercholesterolemia for practicing physicians and other professionals in the medical community. In May 2001, the National Cholesterol Education Program released its third set of guidelines, reflecting changes in cholesterol management since their previous report in 1993. In addition to modifying current strategies of risk assessment, the new guidelines stress the importance of an aggressive therapeutic approach in the management of hypercholesterolemia. The major risk factors that modify low-density lipoprotein goals include age, smoking status, hypertension, high-density lipoprotein levels, and family history. The concept of "CHD equivalent" is introduced-conditions requiring the same vigilance used in patients with coronary heart disease. Patients with diabetes and those with a 10-year cardiac event risk of 20 percent or greater are considered CHD equivalents. Once low-density lipoprotein cholesterol is at an accepted level, physicians are advised to address the metabolic syndrome and hypertriglyceridemia.
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PMID:Cholesterol treatment guidelines update. 1189 52

Advicor (lovastatin and extended-release niacin) is the first cholesterol-lowering combination product to become available for the management of hyperlipidemia. Lovastatin significantly lowers low-density lipoprotein cholesterol, whereas niacin significantly lowers triglycerides and lipoprotein (a) and markedly increases high-density lipoprotein cholesterol. These effects are ideal for managing a variety of lipid disorders, including metabolic syndrome. Lovastatin and niacin reduce coronary heart disease mortality in primary and secondary prevention patients, respectively. The extended-release niacin component uses a unique technology to minimize adverse effects (e.g., flushing and hepatotoxicity) while retaining the same lipid-altering effects as immediate-release niacin. The combination product appears to be well tolerated, with discontinuation due to adverse effects other than flushing occurring in a similar percent of patients as for lovastatin in clinical trials. Approximately 9% of patients discontinued the combination product due to flush. No confined cases of myopathy or hepatotoxicity have been reported with this product. Once-daily dosing provides ease of administration that should improve compliance and result in a greater proportion of patients meeting their low-density lipoprotein cholesterol goals. The nomenclature surrounding niacin products used to treat dyslipidemias is confusing. While only two types of niacin formulations exist (immediate-release formulations and formulations which dissolve more slowly than immediate-release formulations), government regulations allow for slowly dissolved niacin formulations to be divided into two types of niacin products; those that are available over-the-counter (OTC) and those that are available by prescription only. Over-the-counter slowly dissolved niacin preparations are not classified as OTC per se, but are considered "nutritional supplements". For this reason, they fall under the jurisdiction of the Federal Trade Commission and do not fall under the umbrella of the FDA branch that controls dyslipidemic products (Endocrine and Metabolic Division of the Center for Drug Evaluation and Research). The slowly dissolved niacin nutritional supplements have not been reviewed by the FDA for safety nor efficacy in the treatment of dyslipidemia nor are they required to meet generic drug rules (even though various brands are available). These brands are described on their labels as "sustained-release", "timed-release", and "slow-release" for example. Only two slowly absorbed niacin products have been approved by the FDA for the treatment of dyslipidemia; they are Niaspan (Kos Pharmaceuticals, Inc., Miami, FL) and Advicor (Kos Pharmaceuticals, Inc., Miami, FL). The term "extended-release" has been given to these two products to simplify the terminology and differentiate the products from immediate-release niacin. In this review, we will use "extended-release" to refer to the FDA approved slowly dissolving niacin preparation and "sustained-release" to refer to the nutritional supplements (not FDA approved).
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PMID:Lovastatin and extended-release niacin combination product: the first drug combination for the management of hyperlipidemia. 1197 44

Decreased insulin sensitivity, hyperlipidemia, and body fat changes are considered as risk factors for coronary heart disease (CHD). A clustering of such factors (metabolic syndrome [MSDR]) exponentially increases the risk. Impaired fibrinolysis and increased coagulation are additional independent risk factors for CHD. We studied the effects of protease inhibitor (PI)-containing highly active antiretroviral therapy (HAART) on metabolic and hemostatic parameters in 363 HIV-infected individuals, of whom 266 were receiving PI-containing HAART and 97 were treatment naive. The fasting plasma levels of insulin, glucose, triglycerides, cholesterol, high-density lipoprotein cholesterol, low-density lipoprotein cholesterol, plasminogen activator inhibitor type 1 (PAI-1), and fibrinogen were evaluated together with the areas of visceral adipose tissue and the visceral adipose tissue/subcutaneous adipose tissue area ratio. The levels of insulin, triglycerides, cholesterol, and low-density lipoprotein cholesterol; visceral adipose tissue area; low-density lipoprotein/high-density lipoprotein ratio; and visceral adipose tissue/subcutaneous adipose tissue area ratio were significantly increased in patients receiving PI-containing HAART compared with treatment-naive patients. The levels of PAI-1 and fibrinogen were significantly higher in patients receiving PI-containing HAART. PAI-1 levels were higher in individuals with MSDR but also in patients without MSDR who were receiving PI-containing HAART. PAI-1 was independently correlated to use of PI-containing HAART, triglyceride level, insulin level, and body mass index (p <.001). These findings suggest that patients receiving PI-containing HAART have decreased fibrinolysis and increased coagulability, which may thus represent additional risk factors for cardiovascular disease in this patient group.
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PMID:Hypofibrinolytic state in HIV-1-infected patients treated with protease inhibitor-containing highly active antiretroviral therapy. 1198 59

The guidelines of the Adult Treatment Panel III (ATP III) of the National Cholesterol Education Program are similar to prior recommendations in focusing on elevations of low-density lipoprotein (LDL) cholesterol as the primary target of therapy and in gauging the intensity of therapy to the degree of coronary heart disease risk. New elements in the current guidelines include: quantification of risk, heightened attention to the risk imparted by low high-density lipoprotein levels, utilization of non-high-density lipoprotein cholesterol levels in risk assessment for hypertriglyceridemic individuals, and emphasis on the metabolic syndrome. Nonetheless, the current guidelines are not perfect. The recommended algorithm for treatment is excessively complex; this complexity may keep the guidelines from being widely used. This complexity is generated by a hybrid scheme of risk assessment utilizing both counting of categorical coronary heart disease risk factors and calculation of coronary heart disease using the Framingham model. This hybrid method also results in undesirable inconsistencies in treatment. ATP III explicitly agrees that the therapeutic LDL goal should be determined by the burden of non-LDL risk factors. However, the current guidelines violate this principle by giving the baseline LDL cholesterol level a role in determining the therapeutic LDL goal. Additionally, the ATP III guidelines lead to under-treatment of women. Simplification should be a goal of the next iteration of the guidelines. Specific suggestions are given for simplification of the guidelines and for enhanced treatment of women. Furthermore, it is urged that the risk-assessing spreadsheet be provided in an "unlocked" form so that its details can be inspected.
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PMID:Perspectives: some thoughts on the Adult Treatment Panel III report. 1198 54

During the last five decades the metabolic syndrome has turned into an epidemic in countries with overnutrition and low levels of physical activity. About 15% of the population aged 40-75 in these countries exhibit exhibit the 'metabolic syndrome' cluster diseases. We define the metabolic syndrome as a cluster of diseases with at least three of the following components diagnosed in any one subject: ITG/type 2 diabetes, android obesity, dyslipidemia, hypertension, hyperuricemia, albuminuria and atherosclerosis. Insulin resistance was found in more than 80% of both the clinical type 2 diabetics and the subjects with IGT in the RIAD study. Intra-abdominal obesity and lipotoxicity are other important causes. Today the metabolic syndrome is--and for the near future will continue to be--the most important source of new diabetics, as well as a major cause of coronary heart disease.
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PMID:[The metabolic syndrome and its epidemiologic dimensions in historical perspective]. 1201 62

Reducing high levels of plasma low-density lipoprotein cholesterol (LDL-C) is still the primary focus of the Adult Treatment Panel III (ATP III) guidelines developed by the National Cholesterol Education Program. The LDL-C goal of less than 100 mg/dL for those with coronary heart disease (CHD) is now extended to patients with diabetes and those with a Framingham risk score of greater than 20% in 10 years, both of which are now considered "CHD risk equivalents." Consequently, many more people will be considered candidates for aggressive lipid-lowering therapy under the new ATP III guidelines. Other prominent features in the new guidelines include determining an individual's absolute risk category by using a nine-step process, instituting therapeutic lifestyle changes to reduce LDL-C levels, and strategies for treating patients with other forms of dyslipidemia such as metabolic syndrome.
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PMID:Adult Treatment Panel III: do we really need another set of cholesterol guidelines? 1204 81

Mild hyperhomocysteinemia has been established as a new independent risk factor for atherosclerosis and thrombosis. The metabolic syndrome of insulin resistance is associated with a high risk of coronary heart disease. Our objective was to determine if any relationship exists between the metabolic syndrome of insulin resistance in non-diabetic subjects and total serum homocysteine levels. Sixty-six healthy volunteers (33 males and 33 females) were selected from the population of Pilsen. Insulin resistance was measured by the Insulin Suppression Test using Octreotide. Steady-state plasma glucose concentrations at the end of the test period provided a quantitative measure of insulin resistance. Serum homocysteine level was estimated by high-pressure liquid chromatography. Serum folate and vitamin B12 were estimated using commercial kits on an Abbott IMx analyzer. All other laboratory tests were performed by standard methods in a routine biochemical laboratory. Subjects with the highest tertile of steady-state plasma glucose showed a significantly higher body mass index, blood pressure, fasting plasma triglyceride levels, plasminogen activator inhibitor-1 and lower HDL-cholesterol, i.e. an insulin resistance pattern. These subjects had significantly lower serum homocysteine levels compared with non-insulin resistant subjects. The negative association of insulin resistance and serum homocysteine was unexpected. The contribution of plasma folate levels to serum homocysteine levels and serum creatinine was significantly negative and positive, respectively.
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PMID:Unexpected inverse relationship between insulin resistance and serum homocysteine in healthy subjects. 1207 Dec 96

Hyperandrogenemia and low levels of sex hormone binding globulin (SHBG) are frequently found in women with metabolic syndrome, which is characterized by low high-density lipoprotein cholesterol, hypertriglyceridemia, obesity, and hyperinsulinemia. The specific contribution of these various factors to coronary heart disease (CHD) is controversial. The coronary angiograms of 87 consecutive postmenopausal women were evaluated using 2 semiquantitative scoring systems to estimate the extent of focal and diffuse vessel wall alterations. Fasting sera were analyzed for levels of glucose, lipids, insulin, leptin, dehydroepiandrosterone sulfate, testosterone, and SHBG. Obesity was assessed by measuring body mass index, waist-to-hip ratio, skinfold thicknesses, and body impedance. After adjusting for age, there were significant differences in 55 women with CHD compared with 32 women without CHD: higher levels of low-density lipoprotein cholesterol (159 +/- 51 vs 132 +/- 39 mg/dl), apolipoprotein B (121 +/- 33 vs 102 +/- 29 mg/dl), triglycerides (115 vs 91 mg/dl), and basal insulin (7.5 vs 4.6 mU/L), as well as lower levels of high-density lipoprotein cholesterol (59.9 +/- 18.0 vs 69.0 +/- 17.1 mg/dl), SHBG (44.6 vs 68.1 nmol/L) and the quantitative insulin sensitivity check index (0.66 +/- 0.41 vs 0.93 +/- 0.73). Multivariate analysis by logistic regression identified age (odds ratio [OR] 1.22, 95% confidence intervals [CI] 1.09 to 1.37), smoking (OR 11.46, 95% CI 2.56 to 51.39), SHBG (OR 0.98, 95% CI 0.96 to 0.99), and apolipoprotein B (OR 1.02, 95% CI 1.01 to 1.04) as independently associated with the presence of CHD. Thus, low plasma levels of SHBG are associated with CHD in women independently of insulin, obesity markers, and dyslipidemia.
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PMID:Relation of serum levels of sex hormone binding globulin to coronary heart disease in postmenopausal women. 1216 Dec 23

Coronary heart disease (CHD) is a common, costly, and undertreated disorder in the United States, and dyslipidemia is one of its most important modifiable risk factors. Recently, the National Cholesterol Education Program (NCEP) Adult Treatment Panel III (ATP III) published updated guidelines for the treatment of lipid disorders, greatly expanding the number of patients eligible for therapy. In the new recommendations, several significant changes have been made in the identification and management of patients at risk for CHD. Although ATP III maintains that low-density lipoprotein (LDL) cholesterol should be the primary target of lipid-lowering therapy, it identifies non-high-density lipoprotein (HDL) cholesterol (total cholesterol minus HDL cholesterol) as a secondary target in patients with elevated triglycerides. Patients with > or = 2 CHD risk factors should now be assessed for 10-year absolute CHD risk based on the Framingham Point Scale to identify those who require more aggressive treatment. The guidelines also designate a new category, CHD risk equivalent, which recognizes that certain patients have the same high risk as those with established CHD. Diabetes is now identified as a CHD risk equivalent, as are other forms of atherosclerotic disease and multiple risk factors comprising a CHD 10-year risk of > 20%. New lipoprotein classifications are given, and increased emphasis is placed on the metabolic syndrome, a constellation of metabolic risk factors, as a marker for CHD risk. Since adherence poses a major challenge in the management of patients with or at risk for CHD, the new guidelines provide physicians with several strategies for increasing patient compliance. The new guidelines should help physicians better identify and manage patients at risk for CHD, help more patients reach their lipid goals, and thereby decrease cardiovascular morbidity and mortality.
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PMID:New therapeutic options in the National Cholesterol Education Program Adult Treatment Panel III. 1224 Jul 1

Coronary heart disease is a leading cause of death in industrialized nations. Hyperlipidemia with elevated serum total cholesterol, LDL cholesterol, and triglycerides is a known major cardiovascular risk factor. HDL cholesterol is considered to be protective, so low HDL cholesterol is being recognized as an independent cardiovascular risk factor that contributes to the development of atherosclerosis and related adverse cardiovascular events. The recognition of insulin resistance and metabolic syndrome is a step further in understanding these risk factors. Attempts at reducing serum cholesterol with different strategies in the past have met with limited success until the development of statins. The advent of statins has revolutionized the management of hyperlipidemia. The post-statins era has seen major clinical trials demonstrating the benefit of cholesterol reduction in the setting of both primary and secondary prevention. In general, there appears to be a 25% to 40% relative risk reduction in major adverse cardiovascular events such as death, myocardial infarction, and stroke. The recent megatrials further suggest that aggressive management of cholesterol in patients with high cardiovascular risk may be beneficial. Though the concept of the-lower-the-better may be looming, the question of "How low is good enough?" remains controversial. The results of recent megatrials such as the Heart Protection Study go a step further than the NCEP guidelines and suggest that statin therapy may benefit patients at high risk of cardiovascular disease regardless of their baseline values. We summarize the results of the available large clinical trials in our understanding of the management of dyslipidemia in a setting of primary prevention.
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PMID:Management of dyslipidemia in the primary prevention of coronary heart disease. 1235 27

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