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Query: UMLS:C0311277 (abdominal obesity)
 2,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The relationships between body fatness, adipose tissue distribution, plasma glucose, insulin levels, lipoprotein levels, and resting blood pressure were studied in 81 men aged 36.0 +/- 3.3 years (mean +/- s.d.) (body mass index (BMI): 27.4 +/- 3.8 kg/m2, percentage body fat: 26.4 +/- 6.6%). Systolic and diastolic blood pressures (BP) were significantly associated with the BMI (r = 0.31, r = 0.33, P < 0.01), the waist circumference (r = 0.33, r = 0.27; P < 0.01) as well as with adipose tissue areas measured by computerized tomography (CT) (0.27 < or = r < or = 0.36, P < 0.01). Furthermore, the relative accumulation of subcutaneous abdominal fat, as estimated by the ratio of abdominal to femoral adipose tissue areas measured by CT, was positively correlated with systolic and diastolic BP (P < 0.01). Fasting plasma insulin level (r = 0.30, P < 0.01) as well as the insulin area measured during an oral glucose tolerance test (0.34 < or = r < or = 0.37, P < 0.01) were significantly correlated with blood pressure. Systolic and diastolic BP were significantly associated with HDL2-cholesterol (C) as well as with the HDL2-C/HDL3-C ratio (-0.24 < or = r < or = -0.34), whereas triglycerides (r = 0.23) and the HDL-C/C ratio (r = -0.23) were significantly correlated with diastolic BP only (P < 0.05). Multivariate analysis indicated that the insulin area was the most important variable associated with blood pressure and that this association was independent of total body fatness and regional adipose tissue distribution. Plasma insulin levels explained 14% and 11% of the variance observed in the systolic and diastolic blood pressures respectively. These results suggest that most of the association between abdominal obesity and high blood pressure is mediated by the hyperinsulinemia and/or the related insulin resistant state.
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PMID:Relation of abdominal obesity to hyperinsulinemia and high blood pressure in men. 133 43

Abdominal obesity is closely associated with risk factors for cardiocerebrovascular disease and NIDDM and the precipitation of these diseases. Together, they seem to constitute a metabolic syndrome where hyperinsulinaemia, insulin resistance, hyperlipidaemia, hypertension, visceral fat accumulation, cardiocerebrovascular disease and NIDDM are the individual constituents. The background to this syndrome might be a primary aberration expressing itself as an increased sensitivity of the hypothalamo-adrenal axis, and subsequent inhibition of sex steroid hormone secretions. This in turn will probably be followed by metabolic derangements, primarily peripheral insulin resistance, as well as by visceral fat accumulation by mechanisms which are partially visualized by recent work in the field. Visceral fat accumulation may then amplify the metabolic aberrations via hepatic effects of excessive concentrations of portal FFA, producing hyperproteinaemia, hyperglycaemia, hyperinsulinaemia and, perhaps, hypertension. The background to the central endocrine aberration remains more speculative, but factors leading to increased cortisol production, including specific stress reactions, tobacco smoking and alcohol may turn out to be important. The tentative conclusion provides a hypothesis for further work, and has recently obtained considerable support from further observations in humans in other than the endocrine and metabolic areas, as well as from studies in experimental animal models, where such factors can be studied under fully controlled conditions, which is not possible in humans for ethical reasons.
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PMID:Regional fat distribution--implications for type II diabetes. 133 83

A male fat distribution pattern with abdominal obesity increases the risk for hypertension and cardiovascular disease, and is closely linked to a number of metabolic aberrations including insulin resistance. Recent observations suggest that changes in the peripheral vasculature may be of pathophysiological importance for the development of hypertension and its associated metabolic disturbances. We therefore investigated the hemodynamic correlates of abdominal obesity. A central fat distribution was found to be associated with a specific hemodynamic profile, characterized by elevated total peripheral resistance and lower cardiac output. In response to sympathoadrenal activation during mental stress, the normal cardiac output-dependent pressor response was reversed into a systemic vasoconstrictor response. There was a direct relationship between degree of abdominal obesity (expressed as waist-hip ratio) and fasting serum insulin. Furthermore, the stress-induced increase in total peripheral resistance correlated positively with fasting serum insulin concentration, whereas there was an inverse relation between serum insulin and cardiac output and heart rate. In a second study, the circulatory responses to stress during physiological hyperinsulinemia were investigated. During hyperglycemic hyperinsulinemia the central hemodynamic response to stress was changed into a systemic vasoconstrictor response. In the forearm the physiological vasodilation during stress was markedly attenuated, suggesting that insulin may have peripheral vascular effects. In conclusion, central obesity is associated with a specific hemodynamic pattern characterized by higher total peripheral resistance and lower cardiac output, and a vasoconstrictor response to psychosocial stress. This hemodynamic response pattern may be related to insulin metabolism.
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PMID:Hemodynamics of the male fat distribution pattern. 134 31

Obesity is a multifactorial disease with a marked genetic component. The situation is further complicated by the heterogeneity of obesity demonstrated by the topographical distribution of body fat, e.g. upper body (central) and lower body (gluteal) obesity. Furthermore, the distribution of fat shows a stronger heritable tendency compared with total body fat. Central obesity is characterized by hyperinsulinaemia and insulin resistance, a feature in common with non-insulin dependent diabetes mellitus, hypertension and atherosclerosis. In order to study the molecular genetics of central obesity we have examined 56 severely obese (mean body mass index 40), unrelated British Caucasoid young non-diabetic women for associations of restriction fragment length polymorphism of candidate genes with anthropometric measurements and indices of insulin secretion and resistance. The candidate genes examined were insulin receptor, insulin sensitive glucose transporter and insulin. An association of the class 3 allele of the hypervariable region in the 5' flanking region of the insulin gene was found with upper segment obesity (P = 0.005). Furthermore, the class 3 allele was also associated with fasting hyperinsulinaemia (P = 0.01), stimulated insulin secretion (P = 0.01) and insulin resistance as calculated from the homeostatic model of assessment (HOMA; P = 0.008). No such associations were found with the other candidate genes studied. This data suggests that polymorphisms in the 5' flanking region of the insulin gene may affect expression of the gene and thereby modulate insulin production in severely obese female subjects.
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PMID:Central obesity and hyperinsulinaemia in women are associated with polymorphism in the 5' flanking region of the human insulin gene. 135 60

Hypertensive obese subjects run an increased cardiovascular risk. Their predominantly abdominal obesity is often associated with hypertriglyceridaemia and insulin-resistant diabetes, and their cardiovascular status is characterized by cardiac hyperdynamics and hypervolaemia responsible for left ventricular hypertrophy and dilatation. Insulin resistance and subsequent hyperinsulinaemia are thought to explain the obesity-hypertension association, the cardiovascular effects observed and the metabolic and cardiovascular complications which might result from this situation. Successful control of both arterial pressure and overweight should contribute to regression of the left ventricular hypertrophy. Simultaneous treatment of abnormalities in carbohydrate and lipid metabolism is also necessary to prevent cardiovascular complications.
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PMID:[Cardiovascular consequences of obesity associated with arterial hypertension]. 146 76

Abdominal obesity in man is an integrated part of the Metabolic Syndrome, and is associated with a complex neuroendocrine disturbance. Its consequences for the metabolism of the periphery seems to be insulin resistance caused by a combination of a relative hypercortisolaemia and a relative deficiency of sex steroid hormones. This hormonal aberration, in combination with a relative insufficiency of growth hormone secretion, might also direct depot triglycerides to visceral adipose tissues, a consequence at least partly due to varying densities of the specific receptors for these hormones. Visceral fat accumulation may thus be a consequence of the neuroendocrine aberrations, and may amplify the metabolic symptoms via effects on the liver of free fatty acids released in abundance from the lipolytically sensitive enlarged visceral fat depots. The origin of the neuroendocrine disturbance is not known, but epidemiological and cross-sectional information suggest that psychosocial factors are intimately involved. Animal and human studies indicate that the mediating factor(s) may be stress-sensitivity, leading to the neuroendocrine consequences observed.
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PMID:Abdominal obesity and the metabolic syndrome. 148 40

Almost all of the epidemiological studies on the consequences of estrogen replacement treatment (ERT) refer to subjects treated with oral conjugated equine estrogens (CEE). These studies suggest that breast cancer (BC) risk is limited and can only be seen after long-term and/or high dosage use. Orally administered estrogens present a number of metabolic and endocrine peculiarities, some of which could be important in reducing the risk to the breast. Actually, these peculiarities are opposite to those observed in post-menopausal women with abdominal obesity (AO), a group which has recently been identified to be at high risk. AO (as other situations in which an increase in BC risk does exist) shows a sex-hormone-binding-globulin (SHBG) level reduction, which causes an increase of both estrogenic and androgenic activity. Further features of AO, possibly involved in BC risk, could be: i) increased free fatty acid (FFA) levels; ii) hyperinsulinemia; iii) increase of circulating insulin-like growth-factor-I (IGF-I) activity. On the contrary oral estrogens, through their hepatocellular effects, cause: i) a clearcut SHBG increase; ii) a trend to reduced circulating IGF-I activity. As a consequence, the possibility that oral estrogens are characterized by a favourable balance between estrogenic activity and biological modifications protective to the breast, is worth consideration. Even non-oral estradiol have a possible protective action through FFA level reduction; however, due to the absence of hepatocellular effect, it does not influence SHBG levels and IGF-I activity. It seems difficult to extend data on the relationship between BC and oral CEE to other types of types of ERT. For the latter, further study will be necessary.
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PMID:Post-menopausal breast cancer risk: oral estrogen treatment and abdominal obesity induce opposite changes in possibly important biological variables. 158 91

Central obesity increases the risk for cardiovascular disease, but little is known about its hemodynamic effects. The aims were to investigate the influence of obesity (as defined by body mass index) and abdominal fat accumulation (as defined by the waist/hip ratio) on hemodynamics at rest and during mental stress. Invasive hemodynamic studies were performed in 20 healthy, normotensive young men (aged 18-22 years) recruited from an unbiased population sample. Their body mass index and waist/hip ratio ranged between 18.5 and 30.2 (mean 24.1) and 0.77 and 0.98 (mean 0.87), respectively. Hemodynamics were related to the two anthropometric indexes by bivariate regression analyses. Cardiac output and stroke volume were positively correlated to body mass index (p = 0.05 and p = 0.005), but inversely to waist/hip ratio (p = 0.01 and p = 0.01). Mental stress augmented the hemodynamic patterns. Total peripheral resistance during stress correlated inversely to body mass index (p = 0.02), whereas high waist/hip ratio was associated with higher systemic vascular resistance p = 0.002). The delta CO/delta MAP ratio, i.e., relative contribution of cardiac output for the stress-induced increase in mean arterial pressure, showed a strong positive association with body mass index (p = 0.004), but was inversely related to the waist/hip ratio (p = 0.002). Serum insulin correlated significantly to the stress-induced change in total peripheral resistance (r = 0.54; p = 0.02), whereas the increase in cardiac output was inversely related to insulin (r = -0.59; p = 0.007). Thus, central obesity is associated with a specific hemodynamic pattern characterized by higher total peripheral resistance, lower cardiac output, and a vasoconstrictor response to psychosocial stress.
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PMID:Relation of central hemodynamics to obesity and body fat distribution. 159 46

Silent myocardial ischemia (SI), an asymptomatic manifestation of coronary artery disease (CAD), was identified in 10% of apparently healthy nonsmoking, nondiabetic older (60 +/- 7 years, mean +/- SD) men with normal plasma cholesterol levels. We hypothesized that in the absence of other major risk factors for CAD, the men with SI would have reduced plasma levels of high density lipoprotein (HDL) and HDL2 subspecies due to an upper-body fat distribution (waist-to-hip ratio [WHR]), hyperinsulinemia, and abnormal postheparin plasma lipoprotein lipase (LPL) and hepatic lipase (HL) activities. Compared with 47 normal control subjects of similar age, obesity, and maximal aerobic capacity, the 18 men with SI had higher plasma triglyceride (TG) (162 +/- 71 versus 102 +/- 39 mg/dl, p less than 0.001) and lower HDL-C (33 +/- 6 versus 37 +/- 7 mg/dl, p less than 0.02) levels with no difference in low density lipoprotein cholesterol level. The HDL2b and HDL2a subspecies measured by gradient gel electrophoresis were also lower in the men with SI (p less than 0.01). The plasma glucose and insulin responses during an oral glucose tolerance test were the same in both groups. Postheparin plasma HL activity was significantly higher in 12 men with SI than in 41 control subjects (34 +/- 8 versus 27 +/- 10 mumol/ml.hr-1, p less than 0.03) and was correlated with log insulin area (r = 0.36, p less than 0.05) and WHR (r = 0.32, p less than 0.05) in the control subjects but not in the men with SI. In the control group, the percent HDL2b subspecies was correlated inversely with postheparin plasma HL activity (r = -0.46, p less than 0.01, n = 41) as well as WHR (r = -0.49, p less than 0.001, n = 47) and log insulin area (r = -0.37, p less than 0.05, n = 47) but not in the men with SI. Postheparin LPL activity was the same in both groups of men and did not correlate with HDL, WHR, insulin, or plasma TG levels. As the control subjects and men with SI had comparable degrees of abdominal obesity and hyperinsulinemia, these results suggest that the reduced HDL-C levels in men with SI may be related to elevations in HL activity. Thus, abdominal obesity, hyperinsulinemia, elevated TG levels, and low HDL-C and HDL2 subspecies levels may predispose these older men to atherosclerosis.
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PMID:Reduced HDL2 cholesterol subspecies and elevated postheparin hepatic lipase activity in older men with abdominal obesity and asymptomatic myocardial ischemia. 161 6

The goal of the present work is the study of the plasmatic lipid profile in non insulin dependent diabetes mellitus (NIDDM) patients with abdominal obesity (AO), comparing them the NIDDM patients without AO and with OA persons without NIDDM. For that purpose we developed a methodology in which we have studied the body mass index (BMI: kg/m2) the hip-waist index (HWI) (0.95 = AO), lipid parameters, hydrocarbon, titers and serum insulin levels. The results are referred to four groups where we can throw into relief a statistically significant increase in triglycerides and a marked decrease in HDL cholesterol in OA and DM patients when compared to the group with AO without MD or to the group with MD without AO. Based on the results obtained the conclusions can be summarized as follows: The presence of abdominal obesity is a factor that favors the appearance of high levels of serum triglycerides and low levels of HDL-cholesterol in NIDDM. On the other hand, DM is a factor that increases the levels of triglycerides with low levels of HDL-cholesterol which already exist in AO.
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PMID:[Pattern of plasma lipids and insulin blood levels in male patients with non-insulin-dependent diabetes mellitus and moderate obesity]. 174 3


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