UMLS:C0311277 - FACTA Search

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

Since there is evidence that fat distribution is a better predictor of cardiovascular disease than the degree of obesity, some risk factors for atherosclerosis have been evaluated in middle age Type II male diabetics and in obese subjects with and without glucose intolerance. In non-insulin-dependent diabetics (NIDD), abdominal obesity reflected by the waist/hip-circumference ratio (WHR) is related to parameters of metabolic control, lipid parameters, insulin status and response, hypertension, and vascular complications. High WHR is associated with: (a) significantly (p less than 0.01) higher HbA1 values than in the group without abdominal fat distribution; (b) a highly significant (p less than 0.001) negative correlation with high-density-lipoprotein cholesterol (HDL-C) and a positive correlation with the total/HDL-C ratio, which remains after correction for the body mass index; (c) higher apolipoprotein B concentrations; and (d) an elevated atherogenic index. Both fasting and postprandial insulin and C-peptide values may be a link between abdominal fat deposits and metabolic disturbances. Obese patients with upper body fat accumulation have significantly lower HDL-C levels, and a higher prevalence of glucose intolerance and diabetes than do patients with lower body fat obesity. Fasting glycemia, insulin, and the insulin area under the curve during an oral glucose load are significantly (p less than 0.005) increased in those with the greatest WHR, which is similar to that in NIDD and central obesity. An excess of abdominally located fat, even without manifest obesity, is associated with metabolic disturbances that indicate increased risk of atherogenesis and of higher morbidity and mortality, which may be due to characteristics of abdominally located adipocytes.
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PMID:Upper body adiposity and the risk for atherosclerosis. 269 50

We studied 24 healthy men (25-50 years old) covering a wide range of fatness (body mass index range: 21-34 kg/m2) and fat distribution (waist/hip range: 0.75-1.06). Computed tomography scans were taken at five levels (thigh, hip, waist, arm, and liver) from which fat, muscle and bone areas were calculated. Both waist/hip and BMI were correlated with fat areas in the thigh, arm and waist scans. BMI showed stronger correlations with peripheral fat areas, whereas waist/hip showed stronger correlations with fat areas in the waist scan (particularly with visceral fat area: r = 0.88, P less than 0.001). BMI was correlated with muscle and bone areas in the thigh scan. In multiple regression BMI was, independently of waist/hip and age, positively correlated with fat areas in the arm, thigh, and waist (not with visceral fat) and muscle and bone areas in the thigh. Waist/hip was independently of BMI and age correlated with fat areas in the arm and waist, including visceral fat area (but not with fat areas in the thigh). Moreover, waist/hip showed an independent negative correlation with muscle area in the thigh, muscle endurance and physical activity. Serum triglycerides, plasma insulin, glucose, uric acid and diastolic and systolic blood pressure were associated with visceral fat area but also to anthropometric indicators of abdominal fat distribution (especially waist/hip ratio). Liver attenuation, but not the liver/spleen attenuation ratio, was associated with some liver enzymes and BMI but not with waist/hip or metabolic parameters. We conclude that a higher BMI is associated with increased central and peripheral fat stores (but not visceral fat) and increased thigh muscle whereas waist/hip is primarily associated with increased central fat stores (noteably with visceral fat), decreased thigh muscle and reduced physical fitness. It is suggested that physical training might be an important element in the treatment of abdominal obesity in men.
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PMID:Regional distribution of muscle and fat mass in men--new insight into the risk of abdominal obesity using computed tomography. 276 82

Due to the recent knowledge that the distribution of fat deposits would be a better predictor of cardiovascular disease than the degree of obesity, some risk factors for atherosclerosis were evaluated in middle age type II male diabetics and in obese subjects with and without glucose intolerance. In non-insulin dependent diabetes, abdominal adiposity reflected by the waist/hip-circumference (WHR) was related to parameters of metabolic control, lipid parameters, blood rheology, insulin status, hypertension and known vascular complications in three different groups. In the groups with abdominal obesity, the mean annual HbA1 is significantly (p less than 0.01) higher than the group without an abdominal fat mass distribution. Atherogenic index is significantly increased in the group with the highest WHR. HDL-cholesterol levels are significantly decreased in both groups with upper body fat distribution. A highly significant (p less than 0.001) correlation was present between WHR and HDL-cholesterol and WHR and total/HDL-cholesterol ratio; this significant correlation remains after correction for body mass index. Whole blood and plasma viscosity and fibrinogen levels are significantly (p less than 0.05) increased in diabetics with upper body fat accumulation and could be compared to patients with proven coronary ischemic heart disease. The frequency of peripheral vascular disease, coronary ischemic heart disease and hypertension is most prominent in diabetics with an abdominal fat mass distribution. Systolic blood pressure even seems to be increased in non-obese diabetics with the highest WHR. A correlation could be found between WHR and both systolic and diastolic blood pressure. When corrected for body mass index the same significant correlation between WHR and blood pressure remained. Both fasting and postprandial insulin and C-peptide values may be the link between abdominal fat deposits and all metabolic disturbances. These results confirm the negative effect of an excess of abdominally located fat cells, even without manifest obesity, on diabetes metabolic control, lipid fractions, hypertension, insulin behaviour, blood rheology and cardiovascular complications. In obese patients with upper body fat accumulation a higher prevalence of glucose intolerance and diabetes is present, in contrast to their counterparts with lower body fat deposit. Both fasting glycemia, insulin and insulin area are significantly (p less than 0.005) increased in the group with the greatest WHR.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Body fat mass distribution. Influence on metabolic and atherosclerotic parameters in non-insulin dependent diabetics and obese subjects with and without impaired glucose tolerance. Influence of weight reduction. 280 Jun 85

Femoral and abdominal adipose tissue cellularity and metabolism as well as muscle morphology and metabolism were examined in women with Cushing's syndrome and compared with those in nonobese women and obese women with the android and gynoid types of fat distribution. Cushing's syndrome was characterized by abdominal obesity and enlarged abdominal fat cells, with adipose tissue lipoprotein lipase activity elevated 2-3 times that in normal women and low lipolytic capacity. Muscle tissue in women with Cushing's syndrome had a relatively low proportion of type I (30%) and a high proportion of type IIB (32%) muscle fibers, similar to those in android obesity (45% and 25%, respectively) and in contrast to fiber composition in gynoid obesity (55% and 12%, respectively). Glycogen synthase activity in the lateral vastus muscle was very low. We suggest that the enlargement of abdominal fat depots in women with Cushing's syndrome is at least partially due to elevated adipocyte lipoprotein lipase activity and low lipolytic activity. Furthermore, the abnormal muscle fiber composition might be caused by the corticosteroid excess. Such muscle is known to be relatively insulin insensitive and might thus contribute to the marked insulin resistance that occurs during chronic corticosteroid excess.
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PMID:Muscle and adipose tissue morphology and metabolism in Cushing's syndrome. 314 10

Recent research has shown the marked differences in association with disease between obesity localized to the abdominal respectively to the gluteal-femoral regions. In this review systematic analyses were performed of the associations between obesity (body mass index, BMI) or abdominal obesity (increased waist-over-hip circumference ratio, WHR) on the one hand, and a number of disease end points, and their risk factors, as well as other factors on the other, WHR was associated with cardiovascular disease, premature death, stroke, non-insulin-dependent diabetes mellitus and female carcinomas. In contrast, BMI tended to be negatively correlated to cardiovascular disease, premature death, and stroke, but positively to diabetes. The established risk factors for these end points were found to correlate to WHR, while this was often not the case with BMI. BMI was positively correlated only to insulin, triglycerides and blood pressure. Together with diabetes mellitus, this seems to constitute a metabolic group of conditions which are thus associated with BMI. Androgens (in women), and perhaps cortisol, seem to be positively, and progesterone negatively correlated to WHR. The WHR was also positively associated with sick leave, several psychological maladjustments, psychosomatic and psychiatric disease. Attempts were made to interpret these findings. In a first alternative an elevation of FFA concentration, produced from abdominal adipose tissue, was considered to be the trigger factor for the pathologic aberrations associated with abdominal distribution of body fat. When obesity is added, the metabolic aberrations may be exaggerated. In a second alternative adrenal cortex hyperactivity was tested as the cause. When combined with the FFA hypothesis, this might explain many but not all of the findings. It seems possible to produce an almost identical syndrome in primates by defined experimental stress. Women with high WHR were found to have a number of symptoms of poor coping to stress. It was therefore suggested that part of the background to this syndrome might be a hypothalamic arousal syndrome developing with stress. It was concluded that obesity and abdominal distribution of adipose tissue constitute two separate entities with different pathogenesis, clinical consequences and probably treatment.
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PMID:The associations between obesity, adipose tissue distribution and disease. 329 56

Because recent knowledge indicates that the distribution of fat deposits in men may be a better predictor of cardiovascular disease than the degree of obesity alone, some risk factors for atherosclerosis were evaluated in 51 middle-aged men with non-insulin-dependent diabetes mellitus. Abdominal adiposity (waist/hip ratio, WHR) was related to parameters of metabolic control, lipid parameters, and known vascular complications in three different groups. In groups with abdominal obesity, mean annual hemoglobin A1 was significantly (P less than .01) higher than in patients without an abdominal fat distribution. Atherogenic index was significantly increased in the group with the highest WHR and high-density lipoprotein cholesterol (HDL-chol) levels were significantly decreased in both groups with upper-body fat distribution. The frequency of peripheral vascular disease, coronary ischemic heart disease, and hypertension was most prominent in diabetic subjects with an abdominal fat mass distribution. A highly significant (P less than .001) correlation was present between WHR and HDL-chol and WHR and the total-cholesterol/HDL-chol ratio; this significant correlation remains after correction for body mass index. A similar correlation could be found between WHR and systolic and diastolic blood pressures. These results demonstrate an association of excess abdominal fat, even without manifest obesity, with worse diabetes metabolic control, cardiovascular complications, and blood lipid levels actually considered to play an important role in atherogenesis.
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PMID:Relationship of body fat distribution pattern to atherogenic risk factors in NIDDM. Preliminary results. 338 30

Recent studies have shown that adipose tissue metabolism varies in different regions. Thus, hormonal responsiveness and sensitivity to both lipolytic and anti-lipolytic agent is increased in abdominal as compared to femoral cells. Abdominal obesity is also associated with greater aberrations in metabolism than peripheral obesity. The increased lipolytic response in abdominal fat cells may lead to higher FFA concentrations, which may attenuate both glucose uptake and insulin clearance by the liver.
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PMID:Regional differences in adipocyte metabolism and possible consequences in vivo. 390 44

The distribution of adipose tissue thickness, fat cell weight (FCW), and number (FCN) were studied in four regions in randomly selected middle-aged men and women and in 930 obese individuals. Both the obese and the randomly selected men were found to have the largest adipose tissue thickness in the abdominal region. Women, however, showed a relative preponderance for the gluteal and femoral regions. FCW increased with expanding body fat up to a maximal size of approximately 0.7-0.8 micrograms/cell in each region. After this increase in FCW, a more rapid increase in FCN was found. For the same degree of relative overweight, men had higher triglyceride, fasting glucose, and insulin levels; higher sums of glucose and insulin levels during an oral glucose tolerance test; and higher blood pressure. Furthermore, elevated fasting glucose levels (greater than 7.4 mM) occurred twice as often in the males. These differences between males and females persisted even after body fat matching. A male risk profile was seen in women characterized by abdominal obesity (high waist/hip circumference ratio) as compared to women with the typical peripheral obesity. Stepwise multiple regression analyses in both women and men showed the obesity complications to be associated in a first step to waist/hip circumference or body fat and in a second to abdominal fat cell size. It may thus be concluded that: (a) In both obese and nonobese subjects, regional differences exist between the sexes with regard to adipose tissue distribution. (b) Moderate expansion of body fat is mainly due to FCW enlargement, which is subsequently followed by increased FCN. (c) Men and women with a male abdominal type of obesity are more susceptible to the effect of excess body fat on lipid and carbohydrate metabolism.
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PMID:Impact of obesity on metabolism in men and women. Importance of regional adipose tissue distribution. 635 Mar 64

Apart from being a stimulator of longitudinal growth, growth hormone (GH) regulates fuel metabolism in children and adults. A halfmark is mobilization of lipids, which involves an inhibition of lipoprotein lipase activity in adipose tissue and activation of the hormone sensitive lipase. Suppression of basal glucose oxidation and resistance to insulin are other important effects. This may cause concern during GH substitution in GH-deficient adults, some of whom may present with insulin resistance due to concomitant abdominal obesity. However, there are data to suggest that the GH-induced reduction in fat mass and increase in lean body mass may offset the insulin antagonistic actions of the hormone. The nitrogen-retaining effects of GH seem to involve a direct stimulation of protein synthesis in addition to secondary effects such as generation of insulin-like growth factor-I (IGF-I), hyperinsulinemia, and promotion of lipolysis. Thus, during periods of substrate affluence, GH acts in concert with insulin and IGF-I to promote protein anabolism. Postabsorptively, GH is primarily lipolytic and thereby indirectly protein-sparing. This effect becomes further accentuated with more prolonged fasting. In that sense, GH is unique by its preservation of protein during both feast and famine. These fuel metabolic effects add merit to the principle of GH substitution in hypopituitary adults.
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PMID:Fuel metabolism in growth hormone-deficient adults. 747 1

This study was designed to evaluate coagulation and fibrinolysis activity and their relationship with left ventricular function in young obese subjects with central fat distribution. We assessed coagulation and fibrinolysis activity by evaluation of factor VII activity, fibrinogen and plasminogen, plasminogen activator inhibitor (PAI), and tissue plasminogen activator antigen basally (tPA1) and after venous occlusion (tPA2). These measures were evaluated in young (< 40 years) obese subjects with central fat distribution (n = 19) and in comparable lean subjects (n = 20). Blood glucose, triglycerides, total and high-density lipoprotein (HDL) cholesterol, apolipoprotein (apo) A1 and apo B, fasting immunoreactive insulin, and lipoprotein(a) levels were also measured by current methods. Left ventricular ejection fraction (LVEF) and peak filling rate (PFR) determined by radionuclide angiocardiography and left ventricular mass (LVM) and LVM indexed for body height (LVM/H) determined by echocardiographic study were calculated. Central obesity was evaluated by the waist to hip ratio (WHR) according to the criteria of the Italian Consensus Conference of Obesity. Factor VII (P < .001), fibrinogen (P < .001), plasminogen (P < .001), PAI activity (P < .001), tPA1 (P < .02), fasting blood glucose (P < .01), apo B (P < .02), and immunoreactive insulin (P < .01) were significantly higher in obese than in lean subjects. In contrast, HDL cholesterol (P < .01), tPA2 (P < .01), LVEF (P < .001), and PFR (P < .02) were significantly lower in obese than in lean subjects. In all subjects, WHR correlated directly with fibrinogen and inversely with tPA2; LVEF correlated inversely with tPA1, PAI, and fibrinogen; and PFR correlated inversely with factor VII activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hemostatic function in young subjects with central obesity: relationship with left ventricular function. 747 28

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