UMLS:C0948265 - FACTA Search

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

We have investigated the prevalence of cardiovascular risk factors including insulin and lipoprotein(a) in 40-year old men from the island of Oland (n = 314, 84% of those invited) in order to assess to what extent insulin and lipoprotein(a)--two of the currently discussed risk factors--correlated with each other, as well as with some of the more established risk factors. An inverse correlation was found in bivariate analyses between lipoprotein(a) and some of the risk factors for cardiovascular disease included in the 'metabolic syndrome' (triglycerides; r = -0.15, BMI; r = -0.18, and insulin/glucose ratio; r = -0.18) (p < 0.001). In multivariate analysis only the inverse correlation with triglycerides remained. Since lipoprotein(a) has been shown to be an independent risk factor for myocardial infarction, there may exist two subgroups of cardiovascular risk patients: one more obese, hyperinsulinaemic and with several metabolic derangements; and another comprising non-obese subjects with higher lipoprotein(a) values.
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PMID:Non-obese men with high lipoprotein(a) values--a cardiovascular risk group different from those with the metabolic syndrome? 819 5

Bearing in mind the importance of upper-body obesity for the insulin resistance (or metabolic) syndrome and the abnormalities in free fatty acid metabolism associated with this disorder, the regulation of lipolysis in isolated subcutaneous adipocytes was investigated in 13 72-yr old upper-body obese men with insulin resistance and glucose intolerance and in 10 healthy 72-yr-old men. There was a marked resistance to the lipolytic effect of noradrenaline in the metabolic syndrome due to defects at two different levels in the lipolytic cascade. First, an 80-fold decrease in sensitivity to the beta 2-selective agonist terbutaline (P < 0.001) which could be ascribed to a 50% reduced number of beta 2-receptors (P < 0.005) as determined with radioligand binding. The groups did not differ as regards dobutamine (beta 1) or clonidine (alpha-2) sensitivity, nor beta 1-receptor number. The mRNA levels for beta 1- and beta 2-receptors were similar in the two groups. Second, the maximum stimulated lipolytic rate was markedly reduced in the metabolic syndrome. This was true for isoprenaline (nonselective beta-agonist), forskolin (activating adenylyl cyclase), and dibutyryl cAMP (activating protein kinase). In regression analysis, the observed abnormalities in lipolysis regulation correlated in an independent way with the degree of glucose intolerance (r = -0.67) and beta 2-receptor number with insulin resistance (r = 0.67). In conclusion, the results of this study indicate the existence of lipolytic resistance to catecholamines in the adipose tissue of elderly men with the metabolic syndrome, which may be of importance for impaired insulin action and glucose intolerance. The resistance is located at a posttranscriptional level of beta 2-receptor expression and at the protein kinase-hormone sensitive lipase level.
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PMID:Multiple lipolysis defects in the insulin resistance (metabolic) syndrome. 820 Sep 97

Systemic arterial hypertension is not merely a simple haemodynamic abnormality. It is as frequently as in 80% associated with metabolic deviations such as impaired glucose tolerance or NIDDM, obesity, hyperuricaemia, hyperlipoproteinaemia, rapid development of atherosclerosis. This cluster of different symptoms with higher BP readings is too frequent to be incidental. We speak therefore of hypertensive metabolic syndrome which is close to or identical with Reaven's syndrome X or familial dyslipidaemic hypertension. The common pathogenetic basis of the listed metabolic deviations and hypertension is probably genetic or acquired reduction of tissue sensitivity, in particular striated muscle sensitivity to the physiological action of insulin. The consequence of this insulin resistance and the effort to maintain euglycaemia is a compensating adaptational risk of plasma insulin. Hyperinsulinism in addition to an increased synthesis of triacylglycerols, VLDL and LDL lipoproteins can promote the rise of BP by a complex mechanism: it stimulates the activity of the sympathetic nervous system, it promotes sodium retention in the kidneys, it affects transmembrane transport mechanisms for electrolytes and an increase of intracellular sodium and calcium, it stimulates hypertrophy and remodelling of the vascular wall and hastens the development of atherosclerosis. Hyperinsulinaemia is also associated with resistance of hypertonic patients to antihypertensive treatment. Its reduction by non-pharmacological procedures (reduction of body weight, physical activity etc.) restore the effectiveness of antihypertensive drugs. Insulin resistance is most probably a genetically conditioned abnormality which has multiple phenotypic manifestations, depending how this congenital disposition is amplified or associated with other genetic abnormalties or external and internal factors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The hypertensive metabolic syndrome]. 821 36

Hypertension, dyslipidemias, glucose intolerance and obesity are among the most important cardiovascular risk factors. There is growing evidence for the concept of a relationship between blood pressure regulation and metabolic changes. The combination of hypertension and the metabolic changes mentioned above has been named metabolic syndrome in the literature. The central role of insulin resistance and consecutive hyperinsulinemia in the metabolic syndrome has been shown in epidemiological, clinical, genetic and animal studies. The metabolic syndrome can be demonstrated in about one half of the hypertensive population. This pathophysiological concept has to be taken into consideration in the therapy and prevention of the different cardiovascular risk factors.
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PMID:[The metabolic syndrome: common etiology for distinct cardiovascular risk factors?]. 827 98

The associates of gout-obesity, hypertriglyceridemia, glucose intolerance, and hypertension, strikingly resemble those of insulin resistance. In the present study we determined whether hyperuricemia is associated with insulin resistance and, if so, whether this association can be explained by other components of the syndrome. For this purpose we quantitated insulin sensitivity (euglycemic clamp) in 37 nondiabetic subjects (aged 30-68 yr) exhibiting varying degrees of the metabolic syndrome (body mass index, 21.5-35.7 kg/m2; serum triglycerides, 0.4-22.0 mmol/L; high density lipoprotein cholesterol 0.38-1.86 mmol/L; blood pressure, 190-100/116-60 mm Hg). In simple linear regression analysis, the serum uric acid concentration (range, 182-568 mumol/L) was inversely correlated with insulin sensitivity (rate of glucose utilization; r = -0.61; P < 0.001) and positively with serum triglycerides (r = 0.68; P < 0.001), but not with body mass index, age, or the plasma glucose concentration. In multiple linear regression analysis, both insulin sensitivity (P < 0.05) and serum triglycerides (P < 0.005) were independently associated with the serum uric acid concentration, and together explained 50% of its variation. Addition of body mass index or age to the model did not improve the degree of explanation. Acute elevation of serum triglycerides about 3-fold, of plasma FFA about 9-fold, or of serum insulin about 28-fold had no effect on the serum uric acid concentration in healthy volunteers. The data indicate that hyperuricemia is indeed an inherent component of the metabolic syndrome and could also be used as a simple marker of insulin resistance.
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PMID:Hyperuricemia and insulin resistance. 828 9

Excessive postprandial triglyceride (TG) responses despite normal fasting TG levels have been described in single cases within small groups of healthy subjects and in patients with obesity or precocious atherosclerosis, known to be associated with high insulin fasting levels. To clarify this association, fasting and postprandial TG and insulin levels were studied in 113 healthy young (25.7 +/- 2.6 years), normal weight (body mass index 20.8 +/- 2.3 kg/m2) male subjects who were selected from among 117 subjects on the basis of TG fasting levels < 200 mg/dl. After a 12-hour fast a standardized liquid lipid load was administered containing 58 g mainly saturated fat and 1,017 kcal energy. Both fasting TG values and postprandial TG peak values showed bimodal frequency distributions. Statistical analysis of fasting TG discriminated two groups: a low fasting TG group with normally distributed values < 150 mg/dl (mean +/- SEM: 79.5 +/- 2.7 mg/dl; n = 104) and a high fasting TG group > 150 mg/dl (194.5 +/- 7.2 mg/dl; n = 13). Likewise, two groups could be differentiated according to their maximal postprandial TG response (TG max) to the lipid load: (1) normal responders with TG max < 260 mg/dl (mean +/- SEM: 123 +/- 4.8 mg/dl; n = 96) and (2) high responders with TG max > 260 mg/dl (272.5 +/- 20.5 mg/dl; n = 17). Fasting TG and TG max were highly correlated (r = 0.745; p < 0.0001). However, 9 of 17 (53%) high responders had fasting TG < 150 mg/dl, which means that the prediction of high response is only 47.0% based on fasting TG values. Fasting insulin levels were significantly higher in high responders than in normal responders, whereas they did not differ between the low and high fasting TG group. In conclusion, the bimodal frequency distribution of TG max after a lipid load permitted the differentiation of two groups, normal responders and high responders, with higher fasting insulin levels, which might indicate a link to the metabolic syndrome.
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PMID:The phenomenon of a high triglyceride response to an oral lipid load in healthy subjects and its link to the metabolic syndrome. 835 52

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 metabolic syndrome (syndrome X) is characterized by elevated insulin levels, obesity of the android type, disturbed lipid metabolism with increased triglycerides (VLDL elevated, HDL decreased) and an association with hypertension. The cause of this syndrome appears to be an insulin resistance of the skeletal muscle. The molecular mechanism leading to skeletal muscle insulin resistance is not understood, however an abnormality of signal transduction from the insulin receptor to glycogen synthase is suggested. It is believed that this syndrome represents a potentially prediabetic situation. Furthermore it is believed that this syndrome gives rise to cardiovascular complications in certain predisposed populations.
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PMID:[Metabolic syndrome--bridge to type II diabetes]. 847 32

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

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