UMLS:C0028754 - FACTA Search

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

Subcutaneous adipose tissue blood flow (ATBF) was measured by the local clearance of 133Xe from the abdominal and femoral regions of nine individuals with non-endocrine obesity before and after seven days of fasting. Fifteen non-obese individuals served as controls. In the obese group ATBF was similar in the abdominal and femoral regions, 1.7 +/- 0.2 and 1.8 +/- 0.2 ml/min/100 g adipose tissue, respectively. In contrast, in the non-obese group the abdominal ATBF was higher, 4.1 +/- 0.6 and 2.4 +/- 0.2 ml/min/100 g adipose tissue, respectively (P < 0.01). During fasting, ATBF in the abdominal region increased by 45% (P < 0.01), but it remained unchanged in the femoral region. The mechanisms behind the differences in responses to fasting in the two regions are unsettled but may depend on regional differences in lipolytic activity and responses to vasoactive substances. Furthermore, the vasodilator response to fasting in the abdominal region in combination with the higher lipolytic rate in that region may be a pathophysiological factor behind the increased cardiovascular morbidity associated with abdominal obesity.
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PMID:Subcutaneous adipose tissue blood flow in the abdominal and femoral regions in obese women: effect of fasting. 133 42

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

The purpose of the study was to describe the proportion of the variation in blood lipid levels [high-density lipoprotein cholesterol (HDLC), low-density lipoprotein cholesterol (LDLC), total cholesterol, very-low-density lipoprotein cholesterol (VLDLC) and triglycerides] explained by different measures of overall obesity [body fat (kg), percentage body fat, or body mass index (kg/m2)] and abdominal obesity [waist/hip ratio, waist/thigh ratio or waist circumference (cm)]. This was done in a Danish population sample of 1523 men and 1464 women aged 35-65 years. This was done to assess, on a population level, the effects on the different lipid levels to be expected from a possible reduction in the level of obesity. The proportion of the variation in lipid levels explained by the various measures of overall obesity differed only slightly, as did the proportion of the variation in lipid levels explained by the various measures of abdominal obesity. In men more of the variation in the blood lipids could be explained by overall obesity than by abdominal obesity, whereas in women the reverse was true. More of the variation in the lipids was explained by overall obesity in men than in women, but more of the variation was explained by abdominal obesity in women than in men. In women the obesity measures predicted between 0% and 11% of the variation in lipid level, and in men the obesity measures predicted between 0% and 14% of the variation. Between 16% and 30% in women and between 5% and 21% in men of the variation in the lipid levels could be explained by obesity, age and several lifestyle variables.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The variation in blood lipid levels described by various measures of overall and abdominal obesity in Danish men and women aged 35-65 years. 139 77

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

Obesity has a multifactorial origin. However, although environmental variables undoubtedly play a role in the development of obesity, it is now clear that genetic variation is also involved in the determination of an individual's susceptibility to body fat accumulation. In addition, it is also widely accepted that obesity is not a single homogeneous phenotype. It is also heterogeneous regarding its causes and metabolic complications. The regional distribution of body fat appears to be an important correlate of the metabolic complications that have been related to obesity. Due to their higher accumulation of abdominal fat, men are generally more at risk for the metabolic complications of obesity than women whereas some obese women, with large gluteal-femoral adipose depots may have a cosmetic problem which may not necessarily require medical intervention. Several studies have been conducted to understand the mechanisms by which abdominal obesity is related to diabetes, hypertension and cardiovascular disease. It appears that the increased risk of abdominal obesity is the result of complex hormonal and metabolic interactions. Studies in genetic epidemiology have shown that both total body fatness and the regional distribution of body fat have a significant genetic component. Standardized intervention studies using an identical twin design have shown that individuals that have the same genetic background tend to show similar changes in body fat and in plasma lipoprotein levels when exposed to standardized caloric excess or energy restriction. Finally, although abdominal obesity is a significant risk factor for cardiovascular disease, not every abdominal obese subject will experience metabolic complications, suggesting that some obese individuals may be more susceptible than others. Variation in several genes relevant to lipid and lipoprotein metabolism may alter the relation of abdominal obesity to dyslipoproteinemias. Abdominal obesity should therefore be considered as a factor that exacerbates an individual's susceptibility to cardiovascular disease.
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PMID:Genetic aspects of susceptibility to obesity and related dyslipidemias. 151 6

All large prospective studies (n greater than 20,000) and several smaller studies have found that severe obesity [body mass index (BMI) greater than or equal to 35 kg/m2] is associated with approximately a twofold increase in total mortality and in a severalfold increase in mortality due to diabetes, cerebro-, and cardiovascular disease, and certain forms of cancer. Studies that have not been able to confirm this have been small and/or short term, have failed to control for smoking or early mortality, have controlled for intermediate risk factors in an inappropriate way, or have a reduced internal validity due to misclassification biases. As compared with BMI, abdominal obesity is a stronger predictor of mortality in most studies available. The incidence of sudden death unexplained by autopsy may be up to 40 times higher in severely obese subjects as compared with the general population. A small weight increase since the age of 18 is associated with a decreased risk whereas weight increases greater than 10 kg are associated with an increased mortality. The total mortality ratio for severe obesity decreases from 55 y of age and is not detectable above 80 y of age. Studies lacking adequate control groups indicate that a sustained weight loss may induce a reduced mortality but results from controlled intervention studies are so far not available.
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PMID:Mortality of severely obese subjects. 153 Oct 97

Recent prospective, epidemiological research has demonstrated the power of an increased waist/hip circumference ratio (WHR) to predict both cardiovascular disease (CVD) and non-insulin dependent diabetes mellitus (NIDDM) in men and women. Obesity, defined as an increased total body fat mass, seems to interact synergistically in the development of NIDDM, but not of CVD. Increased WHR with obesity (abdominal obesity) seems to be associated with a cluster of metabolic risk factors, as well as hypertension. This metabolic syndrome is closely linked to visceral fat mass. Increased WHR without obesity may instead be associated with lift style factors such as smoking, alcohol intake, physical inactivity, coagulation abnormalities, psychosocial, psychological and psychiatric factors. Direct observations show, and the risk factor associations further strengthen the assumption, that abdominal (visceral) obesity is more closely associated to NIDDM than CVD, while an increased WHR without obesity may be more closely linked to CVD than NIDDM. It remains to be established to what extent, if any, an increased WHR in lean men, and particularly in lean women, indicates fat distribution. Other components of the WHR measurement might be of more importance in this connection.
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PMID:Abdominal fat distribution and disease: an overview of epidemiological data. 157 56

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

Overweight and obesity are the most often encountered disease conditions in general practice. Recent evidence of the importance of fat distribution is discussed. The basic therapeutic approach for the most effective therapy of obesity is probably the combination of a dietary (hypocaloric), a behavioral and a physical activity approach. In this general overview the physiologic background of abdominal obesity and some selected therapeutic implications are discussed.
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PMID:[Obesity. Various aspects in daily practice]. 159 49

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