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Query: UMLS:C0028754 (obesity)
 124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

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

Numerous surveys have shown that in industrial countries diabetic subjects develop hypertension more frequently than non-diabetic persons. In fact, three typical hypertension forms in these patients can be discerned: essential, renal, and isolated systolic hypertension. In type 2-diabetes (NIDDM) hypertension can be seen in close association with obesity, glucose intolerance, lipid changes, and insulin resistance within the framework of the metabolic syndrome. The increased incidence of hypertension in type 1-diabetes (IDDM) is a result of development of diabetic nephropathy. In the elderly type 2-diabetics particularly frequently isolated systolic hypertension is present which reflects increased arterial stiffness and loss of vascular distensibility. In hypertension progression of both macrovascular disease and microangiopathy is increased whereby interaction of hyperglycemia and hypertension seems to be the main risk factor. In most hypertensive diabetic patients drugs will be necessary to lower blood pressure in a therapeutical range. There are several effective substances available which should be prescribed individually according to the needs and accompanying conditions in these patients.
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PMID:[Hypertension and diabetes mellitus]. 847 40

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

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

Insulin resistance is part of a metabolic syndrome that also includes non-insulin-dependent diabetes mellitus, dyslipidemia, obesity, and hypertension. It has been hypothesized that insulin resistance represents the primary physiological defect underlying this syndrome. Since insulin resistance is at least partially genetically determined, we hypothesized that genes influencing insulin resistance would have pleiotropic effects on a number of other traits, including triglyceride (TG) and HDL cholesterol levels, body mass index (BMI) and body fat distribution, and blood pressure levels. To investigate this hypothesis, we analyzed data obtained from individuals in 41 families enrolled in the San Antonio Family Heart Study. Statistical methods that take advantage of the relatedness among individuals were used to differentiate between genetic and nongenetic (ie, environmental) contributions to phenotypic variation between traits. Serum levels of fasting and 2-hour insulin (measured in 767 and 743 nondiabetic family members, respectively) were used as a measure of insulin resistance. The genetic correlations were high between insulin levels (both fasting and 2-hour) and each of the following: BMI, HDL level, waist-to-hip ratio, and subscapular-to-triceps ratio, indicating that the same gene, or set of genes, influences each pair of traits. In contrast, the genetic correlations of insulin levels with systolic and diastolic blood pressures were low. We have previously shown that a single diallelic locus accounts for 31% of the phenotypic variation in 2-hour insulin levels in this population. We conducted a bivariate segregation analysis to see if the common genetic effects on insulin and these other traits could be attributable to this single locus. These results indicated a significant effect of the 2-hour insulin locus on fasting insulin levels (P = .02) and BMI (P = .05), with the "high" insulin allele associated with higher levels of fasting insulin but lower levels of BMI. There was no detectable effect of this locus on HDL level, TG level, subscapular-to-triceps ratio, or blood pressure. Overall, these results suggest that a common set of genes influencing insulin levels also influences other insulin resistance syndrome-related traits, although for the most part this pleiotropy is not attributable to the 2-hour insulin level major locus.
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PMID:Genetic analysis of the IRS. Pleiotropic effects of genes influencing insulin levels on lipoprotein and obesity measures. 862 Mar 44

NIDDM and the metabolic syndrome are characterized by a low serum, HDL cholesterol content and a high triglyceride level, whereas total and LDL cholesterol concentrations are not necessarily elevated. Variable results have been reported on cholesterol absorption, elimination, and synthesis in NIDDM, but no studies are available on subjects within the normal range of blood glucose. From serum samples collected in 1985 from 203 nondiabetic men aged 51-66 years, we examined lipids, cholesterol precursors (reflecting cholesterol synthesis), and plant sterols and cholestanol (reflecting cholesterol absorption) in relation to fasting blood glucose. The findings prompted us (in 1993) to further examine 11 men from the highest and lowest glucose thirds of 203 nondiabetic men by additional dietary, serum, and fecal analyses for absorption, elimination, and synthesis of cholesterol and insulin sensitivity. In 1985, blood glucose was significantly related to LDL apolipoprotein B (P = 0.05) but not to LDL cholesterol (P = 0.19). Significantly higher serum lathosterol and desmosterol-to-cholesterol proportions and lower plant sterol and cholestanol proportions in the highest rather than the lowest glucose thirds suggested that the subjects with high normal blood glucose had decreased absorption and enhanced synthesis of cholesterol. In 1993, men with the lowest glucose versus those with the highest glucose had a lower waist-to-hip ratio, plasma HbA1c, fasting and postload insulin and glucose values, and a higher insulin sensitivity index. In agreement with the 1985 non-cholesterol sterol data, direct analyses of cholesterol metabolism showed further higher cholesterol absorption efficiency (P = 0.03) and serum plant sterol and cholestanol proportions (P < 0.001). Despite a slightly lower dietary cholesterol intake, cholesterol synthesis (P = 0.02) and serum lathosterol (P < 0.01) and desmosterol (P < 0.01) proportions were lowest in men with the lowest glucose third. We conclude that noncholesterol sterols in serum exhibits a long-lasting correlation with blood glucose level in a nondiabetic male population. Low intestinal absorption and high synthesis of cholesterol characterize men with high normal blood glucose. Differences in cholesterol metabolism could be due to underlying insulin effects associated with obesity-like fat distribution and may thus imply novel aspects in the metabolic interrelation between insulin and cholesterol in humans.
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PMID:Associations of fasting blood glucose with cholesterol absorption and synthesis in nondiabetic middle-aged men. 863 49


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