Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0948265 (metabolic syndrome)
24,271 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

NIDDM has been postulated to be a component of a more generalized metabolic syndrome, Syndrome X, caused by insulin resistance. Although the components of the syndrome include glucose intolerance, hypertension, increased TG, and decreased HDL cholesterol, their relationship to insulin resistance and/or hyperinsulinemia is controversial. Recent investigations have shown racial differences in the relationship between insulin resistance and BP in nondiabetic populations. We assessed the relationship between insulin resistance and the other components of the syndrome in 37 black men and 53 black women with NIDDM. Insulin sensitivity was determined by measuring glucose disposal with the euglycemic insulin clamp technique with a 1 mU.kg-1.min-1 insulin infusion. We also determined fasting lipid profiles and BP. In this group of black men and women with NIDDM, 30% were insulin sensitive, and 70% were insulin resistant. No correlation existed between insulin sensitivity and sBP or dBP in either sex. Fasting serum TGs were inversely correlated with insulin sensitivity for both men (r = -0.401, P = 0.02) and women (r = -0.366, P = 0.008). Serum HDL cholesterol was highly correlated with insulin sensitivity for men (r = 0.421, P = 0.01) but not for women (r = 0.071, P = 0.62). Fasting serum TG levels and serum HDL-cholesterol levels were highly correlated in an inverse relationship in men (r = -0.368, P = 0.03), but not women (r = -0.199, P = 0.17). In summary, BP does not correlate with insulin resistance in blacks with NIDDM. Normal insulin sensitivity occurs in 33% of black men and 25% of black women with NIDDM.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Do blacks with NIDDM have an insulin-resistance syndrome? 843 15

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

The more than 3 million type II diabetics in Germany constitute a true therapeutic challenge. Type II diabetes mellitus is part of the so-called metabolic syndrome characterized by the problem of insulin resistance/hyperinsulinemia. Treatment of type II diabetes aims at reducing insulin resistance. Oral antidiabetic management must be based on diabetic diet, in conjunction--if needed--with monotherapy with acarbose or metformin. Only after exhausting these principles of management, acarbose or metformin may be combined with sulfonylurea. Primary monotherapy with insulinotropically acting sulfonylureas is, in most cases, no longer appropriate as we are learning more about the pathophysiology of metabolic syndrome.
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PMID:[Differential therapy with oral antidiabetic drugs]. 847 35

The treatment of type II diabetes should not only concentrate on blood glucose levels but also should take symptoms like insulin resistance, hyperinsulinemia, low HDL-cholesterol, high VLDL, and systemic hypertension into consideration. These symptoms are well described by the metabolic syndrome and are known to be risk factors of macroangiopathy. In obese type II diabetic patients weight loss by caloric restriction is the most essential therapeutic step. Retarding intestinal carbohydrate uptake glucosidase-inhibitors are able to lower postprandial blood glucose levels without stimulating insulin secretion. The biguanide metformin is suitable to diminish peripheral insulin resistance, gluconeogenesis, and intestinal glucose absorption on cellular mechanisms others than betacytotropic effects. In non obese type II diabetic patients sulfonylureas are advantageous because of meal related stimulation of endogenous insulin which runs the physiological way with first pass through the liver. Therefore, sulfonylurea treatment should be continued when secondary failure indicates the need for exogenous insulin. In accordance with the course of type II diabetes in secondary failure insulin should be added to sulfonylureas in as small amounts as possible to ameliorate poor metabolic control. Thus iatrogenic hyperinsulinemia and resulting insulin resistance can be largely avoided. If there is any long term benefit when different oral antidiabetic agents are administered together with insulin has to be evaluated in further clinical studies.
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PMID:[Combination therapy of oral antidiabetic drugs with insulin]. 847 36

Major cardiovascular risk factors, such as hypertension, hyperlipidemia, and diabetes, often cluster in the same individuals. It has been claimed that obesity, hyperinsulinemia, insulin resistance, and a deranged intracellular handling of ions have pathogenetic importance in the development of this metabolic syndrome. However, a decrease in peripheral blood flow is another factor found in all the different facets of this syndrome. An increased peripheral resistance and a rarefaction of skeletal vessels are often seen in hypertensive subjects. Also, the insulin resistance so commonly seen in hypertension may be a consequence of a decreased blood flow because insulin resistance is associated with a decreased capillarization in skeletal muscle. Furthermore, the activity of skeletal muscle lipoprotein lipase, the key enzyme involved in the removal of triglycerides from the circulation, is known to be related to skeletal muscle vascularization. Because enhanced sympathetic activity has been associated with vascular hypertrophy and rarefaction of vascularization, overactivity in this part of the autonomic nervous system may lead to structural changes that will decrease the blood flow in peripheral tissues and thereby induce the metabolic syndrome of cardiovascular risk factors, particularly in individuals who, for genetic reasons, have decreased capillarization at the onset.
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PMID:Decreased peripheral blood flow in the pathogenesis of the metabolic syndrome comprising hypertension, hyperlipidemia, and hyperinsulinemia. 848 Jun 20

In the modern therapeutic approach to hypertension, the aspect of "metabolic side effects" is receiving ever more attention. This is the result of the recognition that high blood pressure forms part of a metabolic syndrome known as syndrome X, the components of which are variously influenced by different antihypertensive agents. Of particular importance seems to be the response of an underlying insulin resistance, since resulting hyperinsulinemia has been shown to be a separate risk factor. Negative metabolic influences on this syndrome may be a reason for inadequate prevention of coronary heart disease, as has been observed under conventional treatment despite effective lowering of blood pressure over many years. The spectrum of relevant antihypertensive drugs contains only few "metabolically neutral" or "metabolically positive" classes of substances, so that particular importance must be attached to ACE-inhibitors for use in patients with a "metabolic risk"; the most thoroughly studied of such inhibitors is captopril. In order to increase the responder rate to about 90%, a combination with low-dose hydrochlorothiazide can be recommended; the negative effect of the thiazide on insulin sensitivity is balanced by the positive effects of captopril. The great practicability of the single dose form of administration, the synergism of the individual substances, and "metabolic neutrality", together with the high level of tolerability underscore the advantage of this combination treatment.
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PMID:[Treatment of hypertension with consideration of metabolism. A challenge for current therapy of essential hypertension]. 851 26

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

Obesity is a multifactorial heterogenous condition. The location of excess fat on the body determines the risk of morbidity and mortality for significant disease. Visceral, or intraabdominal, fat is the fat depot most highly associated with illness and death from cardiocerebrovascular disease and diabetes. Visceral fat is also associated with a quartet of metabolic disturbances. Referred to as the metabolic syndrome, these abnormalities include hypertension, hyperlipidemia, hyperinsulinemia, and insulin resistance. The metabolic syndrome is also present in Cushing's syndrome, which is characterized by primary hypercortisolism as well as profound visceral adiposity and obesity. The interrelationship between hyperactivation or hypersensitivity of the stress axis and disease can be elucidated by an understanding of the effect of excess glucocorticoids upon energy storage and metabolism. The complex interactions of the stress axis upon the growth and reproductive axes, as well as upon the adipose tissue, suggest that chronic stress, whether psychological and/or physical, exerts an intense effect upon body composition, which, in turn, significantly affects the longevity and survival of the organism.
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PMID:Hypercortisolism and obesity. 859 40

Clustering of elevated triglycerides, decreased high-density lipoprotein cholesterol (HDL-C), hyperuricemia, diabetes, and hypertension has been related to insulin resistance/high insulin levels and central and/or overall obesity. The extent to which these abnormalities cluster and whether hyperinsulinemia, central adiposity, and overall obesity each independently associate with this clustering were evaluated in 14,481 US whites and African-Americans 45 to 64 years of age. With the exception of hypertension, abnormalities rarely existed in isolated form. Clustering greatly exceeded chance association (P < .001). Although this clustering was greater in relative terms (ratio of observed to expected cluster frequency) in the lean and less centrally obese, it was greater in absolute terms (observed minus expected cluster frequency as a percent of total population) in the more centrally and more generally obese. The greatest excesses were found for clusters that included both hypertriglyceridemia and low HDL-C. Multiple logistic regression models showed strong and independent graded relationships of clusters with quintiles of fasting insulin (fifth quintile odds ratio, 10 to 54, P < .001) and to a lesser degree with quintiles of the waist to hip ratio (2.2 to 5.4, P < .001 for most) and of body mass index (1.6 to 4.5, P < .05 for most). In conclusion, all abnormalities cluster in excess of that predicted by chance, with clusters showing remarkable and graded independent associations with fasting hyperinsulinemia and to a lesser extent with central and overall obesity. Thus, a metabolic syndrome occurs in both lean and obese middle-aged US adults.
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PMID:Clustering of dyslipidemia, hyperuricemia, diabetes, and hypertension and its association with fasting insulin and central and overall obesity in a general population. Atherosclerosis Risk in Communities Study Investigators. 863 43

For better comprehension of the metabolic syndrome, it is necessary to differentiate the effect of insulin on glucose metabolism on the one hand, and on other metabolic activities on the other hand. Whereas glucose utilization is affected by insulin resistance, the effect of insulin on lipid metabolism, ion and aminoacid transport does not seem to be diminished. Lipid metabolism, however, seems to play a crucial role in the induction of the vicious cycle. Increased energy and fat ingestion may be due to an increased number of galanin secreting cells in the hypothalamus. The excessive fat intake results in an increased rate of release of insulin and increased influx of triglycerides into the blood. From these triglycerides an excess of free fatty acids is released by the action of lipoprotein lipase. The increased plasma free fatty acid level then results in insulin resistance affecting glucose metabolism. Also, these free fatty acids may impair the secretion of insulin. Induction of insulin resistance results in higher glucose levels, which may cause hyperinsulinemia. Hyperinsulinemia maintains the elevation of triglycerides. When diabetes becomes overt and elevated glucose levels prevail, the hyperinsulinism acts on the metabolic pathways which are still sensitive to insulin, namely lipid metabolism, aminoacid transport and ion transport.
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PMID:Hyperinsulinemia, hyperproinsulinemia and insulin resistance in the metabolic syndrome. 864 79


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