Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0242339 (dyslipidemia)
13,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin resistance and consecutive hyperinsulinemia in individuals with the metabolic syndrome are associated with dyslipidemia. This latter is characterised by hypertriglyceridemia and a diminishment of high-density lipoprotein (HDL) cholesterol in the plasma. In severe forms of insulin resistance, low density lipoprotein (LDL) cholesterol may also be elevated. Hypertriglyceridemia is due to an increase in the rate of synthesis of very low density lipoproteins (VLDL) in the liver, and a reduction in their breakdown by the lipoprotein lipase in non-hepatic tissue. Changes in VLDL metabolism are associated with a reduction in HDL concentrations. In addition, direct effects of insulin on the lipid metabolism have been described. Changes in lipid metabolism due to insulin resistance and hyperinsulinemia may be of significance for the atherosclerosis risk in patients with the metabolic syndrome.
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PMID:[Dyslipoproteinemia and metabolic syndrome. Effects of insulin resistance and hyperinsulinemia on lipid metabolism]. 148 17

Many studies have shown that hyperinsulinemia and/or insulin resistance are related to various metabolic and physiological disorders including hypertension, dyslipidemia, and non-insulin-dependent diabetes mellitus. This syndrome has been termed Syndrome X. An important limitation of previous studies has been that they all have been cross sectional, and thus the presence of insulin resistance could be a consequence of the underlying metabolic disorders rather than its cause. We examined the relationship of fasting insulin concentration (as an indicator of insulin resistance) to the incidence of multiple metabolic abnormalities in the 8-yr follow-up of the cohort enrolled in the San Antonio Heart Study, a population-based study of diabetes and cardiovascular disease in Mexican Americans and non-Hispanic whites. In univariate analyses, fasting insulin was related to the incidence of the following conditions: hypertension, decreased high-density lipoprotein cholesterol concentration, increased triglyceride concentration, and non-insulin-dependent diabetes mellitus. Hyperinsulinemia was not related to increased low-density lipoprotein or total cholesterol concentration. In multivariate analyses, after adjustment for obesity and body fat distribution, fasting insulin continued to be significantly related to the incidence of decreased high-density lipoprotein cholesterol and increased triglyceride concentrations and to the incidence of non-insulin-dependent diabetes mellitus. Baseline insulin concentrations were higher in subjects who subsequently developed multiple metabolic disorders. These results were not attributable to differences in baseline obesity and were similar in Mexican Americans and non-Hispanic whites. These results support the existence of a metabolic syndrome and the relationship of that syndrome to multiple metabolic disorders by showing that elevations of insulin concentration precede the development of numerous metabolic disorders.
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PMID:Prospective analysis of the insulin-resistance syndrome (syndrome X). 158 98

The study was undertaken to evaluate the development and association of parameters related to the metabolic syndrome during celiprolol treatment. Hyperinsulinemic euglycemic clamp and independent oral glucose tolerance tests (OGTT) were performed on 25 nondiabetic patients with controlled hypertension and dyslipidemia. The tests were carried out during the patients' previous antihypertensive monotherapy (beta- or Ca-blocker, or an ACE inhibitor), and after 6 and 12 months of celiprolol treatment. About one third of patients were randomized to a control group in which treatment was kept unchanged. Insulin sensitivity index (ISI), measured by the euglycemic clamp test, increased 35% in the celiprolol group at 6 months and remained at that level at 12 months, independent of the previous treatment (p = 0.03, compared to the change in the control group). During a 2 hour OGTT, incremental glucose area under the curve (AUC) decreased from 4.5 to 1.9 hr x mmol/l during 6 months of celiprolol treatment, and decreased further to 1.5 hr x mmol/l at 12 months (p < 0.001). Insulin AUC decreased from 113 to 72 hr x mU/l, and decreased further to 68 hr x mU/l (p < 0.01). All insulin parameters in OGTT were highly significant (p < 0.0001) and inversely associated with ISI. Insulin AUC had the best linear correlation with ISI (r = -0.682, p < 0.0001). Glucose parameters in OGTT correlated only weakly and inversely with insulin sensitivity. From the fasting serum lipids, triglycerides showed an inverse (p < 0.001) and HDL a weak (p < 0.05) positive association with ISI. Four out of 20 metabolic, clinical, and demographic parameters proved to be independently significant predictors for ISI in multiple regression analysis. These were insulin AUC, fasting insulin levels, triglyceride values, and age. The coefficient of determination in this four-parameter linear model was 69%. In this preliminary, observer-masked trial with a limited control group, celiprolol improved the impaired insulin sensitivity and glucose tolerance of dyslipidemic hypertensive patients. A fairly predictive model can be formulated to evaluate the peripheral insulin sensitivity of hypertensive patients with suspected metabolic syndrome using OGTT with serum insulin determinations.
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PMID:Association between serum lipids, glucose tolerance, and insulin sensitivity during 12 months of celiprolol treatment. 766 96

Insulin resistance with consecutive hyperinsulinemia is associated with dyslipidemia in individuals with metabolic syndrome or "syndrome x". This dyslipidemia is characterized by a hypertriglyceridemia and reduced levels of HDL-(high density lipoprotein)cholesterol in plasma. Table 1 summarizes the alterations of lipoproteins in insulin resistance. In severe forms of insulin resistance LDL-(low density lipoprotein)cholesterol can be elevated as well. The hypertriglyceridemia is caused by an elevated synthesis and secretion of VLDL (very low density lipoprotein) in the liver and by reduced metabolism, mediated e.g. by lipoprotein lipase. The alterations of VLDL-metabolism are associated with a reduced concentration of HDL-cholesterol. In addition the composition of lipoprotein particles can be altered, which might interfere with their normal metabolism. Furthermore addition direct effects of insulin on cellular cholesterol metabolism have been described. These alterations in lipid metabolism which are due to an insulin resistance and hyperinsulinemia might be related to the increased coronary risk which has been observed in patients with metabolic syndrome. Therefore the diagnostic approach in patients with hypertriglyceridemia should consider the possibility of an underlying glucose intolerance or Type 2 diabetes. Therapeutic aims and strategies are discussed. In accordance to guidelines of the American Heart Association the goals of lipid-lowering therapy take into account the prevalence of various cardiovascular risk factors in an individual patient (Table 2). Principle actions of lipid-lowering drugs on plasma lipids are outlined in Table 3. Table 4 summarizes the effect of antihypertensive drugs on plasma lipids and lipoproteins, which should be considered in the treatment of patients with dyslipidemia.
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PMID:[Disorders of lipid metabolism in insulin resistance]. 771 75

The relationship between overweight and cardiovascular disease was a matter of debate for many years. Recent studies have demonstrated that obesity defined as body mass index of 30 kg/m2 or higher is associated with an exponential increase of cardiovascular complications. This effect is largely mediated by the induction of established risk factors such as dyslipidemia, hypertension and type 2 diabetes mellitus. Recently, there is growing evidence that the occurrence of most complications of obesity depends not only on the degree of overweight but also on the pattern of body fat distribution. Many data suggest that the anatomical localization of body fat is more important for the risk of developing complications than the adipose tissue mass per se. An abdominal, upper-body type of fat distribution, which can be easily determined by the measurement of waist and hip circumferences (waist/hip ratio = WHR), is also a confirmed risk factor for metabolic disturbances, hypertension and atherosclerosis, independent of body weight. However, the clinical appearance of these disturbances is frequently associated with the development of obesity. This network of metabolic disorders and their vascular complications is termed "metabolic syndrome" or "syndrome X" (Table 2). Abdominal obesity is now known to be closely associated with the metabolic syndrome and is regarded to represent its readily recognizable phenotypic feature. The components of the metabolic syndrome are characterized by varying forms and degrees of insulin resistance. It is assumed that insulin resistance, defined as diminished biological response to the action of insulin, represents the primary defect or at least the common pathogenetic link between these disturbances.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Abdominal obesity and coronary heart disease. Pathophysiology and clinical significance]. 771 76

The metabolic syndrome usually goes along with abdominal obesity: diabetes type II, hypertension, dyslipidemia, and gout are often associated. The common characteristic is the resistance to insulin action. Reasons for the metabolic syndrome are--besides a genetic determination--overnutrition, physical inactivity, and alcohol consumption. Therefore, a causal therapy aims at the elimination of these factors. Consequently, the non-pharmacological therapy of the metabolic syndrome should be emphasized. The most important treatment is the reduction of body weight in the presence of obesity which is relevant for almost 90% of the patients. Body weight can rapidly be diminished by hypocaloric diets. Both, conventional reducing diets or formula diets may be used for weight reduction. Total fasting should not be performed for several reasons. For minor weight reduction or weight maintenance following a period of rapid weight loss with a hypocaloric diet, increased physical activity also lowers weight or prevents relapsing. Aims of therapeutical procedures are the elimination or amelioration of insulin resistance and subsequently the diseases of the metabolic syndrome. Both methods, reducing diet and physical training, act on various factors related to insulin resistance. For example, hypocaloric diets activate thyroxine kinase of the insulin receptor and reduce glucose and insulin in plasma. Physical training reduces not only insulin and glucose in plasma but also free fatty acids in addition and increases capillary density in skeletal muscle. Using the glucose clamp technique, diets and training are equally effective in improving glucose metabolism. Compared to these non-pharmacological methods drugs are less convincing. Since the non-pharmacological treatment implies behavioral changes with regard to nutrition, physical activity and alcohol consumption, simple instructions are not sufficient. Usually long-lasting changes in life style are necessary in order to achieve health improvement. Therefore, health care programs on individual or social basis are required in order to improve nutrition and increase physical activity. However, long-acting effects are difficult to achieve in adults; more promising is the prevention of insulin resistance.
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PMID:[Non-pharmacological therapy of metabolic syndrome]. 771 78

Despite recent progress in therapy and management of diabetes mellitus, diabetes remains a serious disease with life-threatening complications. It is by far the most common metabolic disease and affects 5% of the population in industrialized countries. Noninsulin-dependent diabetes mellitus (NIDDM) is a complex disorder characterized by insulin resistance and impaired insulin secretion and is associated with an increased risk of coronary heart disease, peripheral vascular disease, arterial hypertension and dyslipidemia. Predisposing factors for NIDDM are obesity and a family history of diabetes. Greater physical activity has been associated inversely with the prevalence of NIDDM in several cross-sectional studies. Physical activity increases the sensitivity to insulin, and regular endurance exercise can induce and maintain weight loss, improve glucose tolerance and ameliorate most of the abnormalities in the metabolic syndrome. Type I diabetes mellitus arises as a consequence of immunologically mediated pancreatic islet beta-cell destruction in genetically susceptible individuals. It is an insidious process that may occur over years. During the stage of disease evolution (prediabetes), individuals may be identified by the presence of immunological markers and a decline of beta-cell function. The autoimmune nature of the disease process has led to attempts to stop this process by immune intervention strategies. A variety of immune interventions has been used, some immunosuppressive and some immunomodulatory. Several screening programs are used in order to identify high-risk subjects (i.e. first-degree relatives of individuals with type I diabetes) who may benefit from an early intervention. The ultimate goal of all these efforts is to prevent the development of overt type I diabetes mellitus in those at risk for the disease, using strategies that are both safe and specific. This review summarizes the results of the various studies conducted to date and outlines the approaches currently being tested.
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PMID:[Is prevention of diabetes mellitus possible?]. 783 27

The individual components of the metabolic syndrome such as central obesity, dyslipidemia with increased triglycerides and decreased HDL-cholesterol, hyperuricemia, hypertension and progressive glucose intolerance are markers for an increased risk of atheroma and type 2 (non-insulin-dependent) diabetes. All components, with the exception of hyperuricemia, are associated with skeletal muscle insulin resistance, leading to compensatory chronic hyperinsulinemia. Insulin resistance/hyperinsulinemia, in turn, is associated with a series of hypertensiogenic and atherogenic side effects, aggravating the individual components of the metabolic syndrome. From a more pathophysiologically orientated point of view, early identification of individuals obviously at risk for atheroma and type 2 diabetes, as well as early intervention aimed at the improvement of reduced insulin action may play a central role in an integrated life-style approach of primary prevention of atherosclerosis and type 2 diabetes.
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PMID:[The metabolic syndrome. Pathophysiologic causes, diagnosis, therapy]. 784 93

The occurrence of multi-metabolic syndrome was studied by authors on 31 patients with obesity of android type and hypertension. Plasma glucose and plasma insulin levels were investigated during oral glucose tolerance test, plasma lipid levels were determined, furthermore body mass index and waist/hip ratio were calculated. It was considered that in 65 percent of the cases the presence of multi-metabolic syndrome could have been proved. Dyslipidemia in 22 cases, hyperinsulinemia in 20 cases, deterioration of the carbohydrate metabolism in 14 cases could be demonstrated. The negative correlation between glucose- and insulin-responses to glucose challenge may suggest the presence of insulin resistance. No significant difference was found in metabolic parameters between men and women. The multi-metabolic syndrome is regarded by authors as a process which may lead to both type 2 diabetes mellitus and atherosclerosis. According to their appearance about two third of these patients could be screened. Authors emphasize the great significance of this problem and the importance of early diagnosis and prevention.
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PMID:[Hypertension and multimetabolic syndrome]. 844 28

There is good evidence that central (visceral) adiposity is important in the development of the insulin resistance or metabolic syndrome (obesity, hyperinsulinemia, dyslipidemia, glucose intolerance, hypertension, and coronary heart disease). It is proposed that some non-Caucasian populations are especially susceptible to development of this syndrome, and that lifestyle changes may play important etiologic roles. We postulate that this is due to the presence in these populations of a genetic predisposition to weight gain, perhaps related to a "thrifty" genotype, leading to the concentration of weight gain in visceral fat depots, when there is exposure to conditions associated with westernization.
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PMID:Susceptibility to development of central adiposity among populations. 858 74


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