Chronic energy surplus increases body fat, leading to obesity. Since obesity is closely associated with most metabolic complications, pathophysiological roles of adipose tissue in obesity have been intensively studied. White adipose tissue is largely divided into subcutaneous adipose tissue (SAT) and visceral adipose tissue (VAT). These two white adipose tissues are similar in their appearance and lipid storage functions. Nonetheless, emerging evidence has suggested that SAT and VAT have different characteristics and functional roles in metabolic regulation. It is likely that there are intrinsic differences between VAT and SAT. In diet-induced obese animal models, it has been reported that adipogenic progenitors in VAT rapidly proliferate and differentiate into adipocytes. In obesity, VAT exhibits elevated inflammatory responses, which are less prevalent in SAT. On the other hand, SAT has metabolically beneficial effects. In this review, we introduce recent studies that focus on cellular and molecular components modulating adipogenesis and immune responses in SAT and VAT. Given that these two fat depots show different functions and characteristics depending on the nutritional status, it is feasible to postulate that SAT and VAT have different developmental origins with distinct adipogenic progenitors, which would be a key determining factor for the response and accommodation to metabolic input for energy homeostasis.
Adipocytes ; Adipogenesis ; Adipose Tissue ; Adipose Tissue, White ; Energy Metabolism ; Hand ; Homeostasis ; Inflammation ; Intra-Abdominal Fat ; Models, Animal ; Nutritional Status ; Obesity ; Stem Cells ; Subcutaneous Fat

Obesity was characterized in Korean elementary students using different obesity assessment tests on 103 overweight elementary students from three schools of Jeonbuk Province. The body mass index (BMI) and obesity index (OI) were compared, and the data using DEXA and CT were compared with the data using BIA and a tape measure. The results of this study are as follows: first, 27 students who were classified as obese by OI were classified as overweight by BMI, and 3 students who were classified as standard weight by BMI were classified as overweight by OI. Secondly, by DEXA and BIA measurements, there was 1.51% difference in body fat percentage (boys 1.66%, girls 1.17%) and the difference in body fat mass between boys and girls was 0.77 kg (boys 0.85 kg, girls 0.59 kg), but those differences in body fat percentage and mass were not statistically significant. Thirdly, the average total abdominal fat (TAF) measured by CT scans of obese children was more significantly related with subcutaneous fat (r = 0.983, P < 0.01) than visceral fat (r = 0.640, P < 0.01). Also, TAF were highest significant with waist circumference by a tape measure (r = 0.744, P < 0.01). In summary, as there are some differences of assessment results between two obesity test methods (BMI, OI), we need more definite standards to determine the degree of obesity. The BIA seems to be the most simple and effective way to measure body fat mass, whereas waist/hip ratio (WHR) using a tape measurer is considered to be the most effective method for assessing abdominal fat in elementary students.
Abdominal Fat ; Adipose Tissue ; Anthropometry ; Body Mass Index ; Child ; Humans ; Intra-Abdominal Fat ; Obesity ; Overweight ; Subcutaneous Fat ; Waist Circumference

BACKGROUND: Obesity can be considered as hyperaccumulation of body fat. Therefore, the aim to treat obesity is to decrease body fat. Abdominal total fat calculated in computed tomography is thought to be the most accurate index measuring body fat. The body mass index (BMI) and body fat mass are the representative indices also. Leptin is a protein hormone expressed by obesity gene in adipose tissue. It inhibits food intake and increases energy consumption, thereby controls obesity. With a study of relationship between plasma leptin level and body mass index and abdominal total fat area, we tried to find the usefulness of leptin as an index of adiposity. METHODS: The adiposity level was approximated by BMI, computed tomography and bioelectical impedence. To further explore the relationship with body composition, body fat distribution was determined by computed tomograph. To quantify the relationship between serum leptin level and adiposity, correlation analyses have been conducted. RESULTS: The subjects were 32 females with a BMI of over 25 kg/m2. The mean plasma leptin level was 14.2 5.9 ug/L. We investigated the correlation of plasma leptin level with subcutaneous and visceral fat. The plasma leptin level showed a significant correlation with BMI and body fat mass, and was significantly correlated with subctaneous fat (P<0.01), but not with abdominal visceral fat. CONCLUSION: A significant correlation between plasma leptin level and body fat mass was observed. The distribution of subcutaneous fat showed differences in plasma leptin level. Therefore, the plasma leptin level may be used as an index of change of body fat mass, especially subcutaneous fat.
Adipose Tissue ; Adiposity* ; Body Composition ; Body Fat Distribution ; Body Mass Index ; Eating ; Female ; Humans ; Intra-Abdominal Fat ; Leptin* ; Obesity* ; Plasma* ; Subcutaneous Fat ; Subcutaneous Fat, Abdominal

BACKGROUNDS/AIMS: It has been reported that functional hepatogenic differentiation has the possibility to occur in subcutaneous adipose tissue-derived stem cells. However, no studies have investigated whether the adipose tissue-driven stem cells present in various body parts differ according to hepatogenic differentiations. In this study, stem cells were separated from body visceral fat and abdominal subcutaneous adipose tissue, and cultured, and then hepatogenic differentiation was induced. We aim to investigate the possibilities and aspects of hepatogenic differentiations within the two types of fat cells. METHODS: Omental fat tissues were obtained as visceral fat and abdominal subcutaneous adipose tissues were obtained from patients who had suction-assisted lipectomy. Stem cells were separated from the obtained fat tissues, and then, hepatogenic differentiation was carried out by utilizing 2-step differentiation protocols. RESULTS: After the differentiation, two types of cultured cells that showed the similar neuron-like shapes were changed to cuboidal shapes and included several binucleated cells which could be characteristics of mature hepatocytes. We confirmed that hepatocyte specific genes and proteins such as albumin and CYP3A4 were being expressed. By utilizing the ELISA test, we were able to observe that the albumin was secreted into the culture fluids in both cells. After completing the differentiation, we observed the presence of the hepatocyte specific properties by confirming glycogen storage within the cells and the ICG reagent uptake. CONCLUSIONS: We confirmed that hepatogenic differentiation was possible to occur in the omental fat as well as subcutaneous adipose tissue.
Adipose Tissue ; Cells, Cultured ; Enzyme-Linked Immunosorbent Assay ; Glycogen ; Hepatocytes ; Human Body ; Humans ; Intra-Abdominal Fat ; Lipectomy ; Mesenchymal Stromal Cells ; Proteins ; Stem Cells ; Subcutaneous Fat ; Subcutaneous Fat, Abdominal

OBJECTIVE: Patients with schizophrenia are at a higher risk for developing insulin resistance and type 2 diabetes mellitus (T2DM). However, few studies have examined abdominal fat and mid-thigh low-density muscle areas, which are known risk factors for insulin resistance and T2DM, in patients with schizophrenia. Therefore, we measured the abdominal fat and mid-thigh low-density muscle areas of schizophrenics and compared them with normal controls. METHODS: Nineteen (four men and 15 women) drug-naive or -free subjects who met the DSM IV criteria for schizophrenia and 19 age- and sex-matched controls were recruited. We measured weight, height, waist circumference, and percent body fat, and calculated the body mass index (BMI). Abdominal fat and mid-thigh low-density muscle areas were evaluated using computed tomography. RESULTS: There was no significant difference in terms of age and BMI between the two groups. The areas of abdominal fat (262.4+/-101.8 vs. 257.1+/-93.8 cm2 ; p=0.919), subcutaneous fat (182.4+/-72.8 vs. 180.5+/-75.1 cm2 ; p=0.988), visceral fat (79.9+/-47.2 vs. 76.6+/-49.3 cm2 ; p=0.872), and mid-thigh low-density muscle (15.0+/-9.9 vs. 15.4+/-5.2 cm2, p=0.373) did not differ between schizophrenics and controls. CONCLUSION: Abdominal obesity is a well-recognized risk factor for developing certain medical conditions such as insulin resistance and T2DM. We demonstrated that drug-naive or- free patients with schizophrenia do not have increased visceral fat or mid-thigh low-density muscle areas, which might have explained the higher prevalence of insulin resistance and T2DM in these patients.
Abdominal Fat* ; Adipose Tissue ; Body Mass Index ; Diabetes Mellitus, Type 2 ; Humans ; Insulin Resistance ; Intra-Abdominal Fat ; Male ; Obesity, Abdominal ; Prevalence ; Risk Factors ; Schizophrenia* ; Subcutaneous Fat ; Waist Circumference

OBJECTIVE: There has been a limited investigation looking into the correlation between pericardial fat and abdominal fat with coronary artery disease (CAD) as measured by coronary computed tomographic angiography (CCTA). We proposed that the volume of pericardial fat is larger in patients with CAD than in patients without CAD, and sought to determine which abdominal adiposity index best correlated with pericardial fat volume. METHODS: Participants were examined using CCTA between October 2007 and January 2008. All participants had no previous history of CAD. Pericardial adipose tissue (PAT) volume, abdominal total adipose tissue volume, abdominal subcutaneous adipose tissue volume, and abdominal visceral adipose tissue (AVAT) volume were measured using CCTA. RESULTS: Fifty patients (26.5%) demonstrated CAD, and 139 patients did not demonstrate CAD by CCTA. PAT volume in patients with CAD was larger than that of patients without CAD (173.2+/-64.2 cm3 vs. 147.6+/-50.4 cm3, p<0.01). However, indices of abdominal adiposity were not significantly different between the two groups. Using multivariable analysis, independent predictors of CAD were PAT volume (odds ratio [OR] 1.01, 95% confidence interval [CI] 1.00-1.02, p=0.04), coronary artery calcium score (OR 1.01, 95% CI 1.00-1.01, p<0.01), and typical chest pain (OR 4.88, 95% CI 1.47-16.21, p=0.01). AVAT volume showed a linear correlation with PAT volume. CONCLUSION: PAT volume was an independent predictor of CAD as measured by CCTA. PAT volume was also well correlated with the AVAT volume among the indices of abdominal adiposity.
Abdominal Fat ; Adipose Tissue ; Adiposity ; Angiography ; Calcium ; Chest Pain ; Coronary Artery Disease* ; Coronary Vessels ; Humans ; Intra-Abdominal Fat ; Subcutaneous Fat, Abdominal

BACKGROUND: The metabolic risks associated with obesity are closely correlated with a central rather than a peripheral fat pattern. These complications of obesity have been attributed to increase in visceral adipose tissue. The aim of this study was to investigate whether the dual- energy X-ray absorptiometry (DEXA) method offers a good alternative to computed tomography (CT) for the prediction of visceral fat in the obese women in correlation of metabolic complication markers. METHODS: The design is a cross-sectional analysis. Total body fat and truncal fat amounts were measured by using DEXA, while total abdominal fat area was measured by CT, and divided into visceral abdominal fat area and subcutaneous fat area. Partial correlation after controlling for age and multiple regression analyses after adjusting for age and total percent body fat were performed to relate the metabolic variables to the CT and DEXA body composition variables. RESULTS: For serum uric acid, total abdominal fat area by CT had the largest R2 values (R2=0.259). For AST, ALT, total cholesterol and log triglyceride, visceral fat area had the largest R2 values (R2= 0.360, 0.407, 0.147, and 0.339), respectively, and for log insulin, truncal fat by DEXA had the largest R2 values (R2=0.275). CONCLUSION: Truncal fat amount measured by DEXA had a strong correlation with visceral fat area measured by CT. Truncal fat amount measured by DEXA and correlated significantly with visceral abdominal fat area measured by CT reflected most of the metabolic complication markers.
Abdominal Fat ; Absorptiometry, Photon ; Adipose Tissue ; Adult* ; Body Composition ; Cholesterol ; Cross-Sectional Studies ; Female ; Humans ; Insulin ; Intra-Abdominal Fat ; Obesity* ; Subcutaneous Fat ; Triglycerides ; Uric Acid

Various forms of fermented soybean products are well documented for their health benefits. The efficacy of anti-obesogenic effect of Doenjang, one of the most commonly used seasonings in Korean cuisine, has been reported only in animal models; thus, an evaluation of Doenjang needs to be conducted in human studies. We aimed to test the hypothesis that Doenjang supplementation reduces body weight and changes body composition in overweight adults. A total of 51 overweight adults participated in this study. A group of males with BMI > or = 23 kg/m2 and waist to hip ratio (WHR) > or = 0.90, and a group of females with BMI > or = 23 kg/m2 and WHR > or = 0.85 were randomly assigned to either a Doenjang supplement (9.9 g dry/day) group or a placebo group for a 12-week randomized, double-blind and placebo-controlled study. Anthropometric parameters, abdominal fat distribution by computerized tomography (CT) and blood components were measured before and after the intervention period. After the 12-week study, the Doenjang supplementation group had significant reductions in body weight (kg), body fat mass (kg) and body fat (%) compared to the placebo group, the supplementation of Doenjang resulted in a significant reduction in visceral fat (cm2), although no changes were observed in total and subcutaneous fat are as (cm2), serum lipid profiles and dietary intakes. The present study demonstrated that daily supplementation of 9.9 g dry/day of Doenjang for 12 weeks reduces body weight and visceral fat in overweight adults.
Abdominal Fat ; Adipose Tissue ; Adult ; Animals ; Body Composition ; Body Weight ; Female ; Humans ; Insurance Benefits ; Intra-Abdominal Fat ; Male ; Overweight ; Seasons ; Soybeans ; Subcutaneous Fat ; Waist-Hip Ratio

BACKGROUND: We investigated the effects of exercise intensity on abdominal and mid-thigh adipose tissue, attenuation of skeletal muscle, and insulin sensitivity in overweight women with type 2 diabetes mellitus (T2DM). METHODS: Twenty-eight patients were randomly assigned to control (CG, n=12), moderate intensity exercise (MEG, n=8), or vigorous intensity exercise (VEG, n=8) group. Subjects in both exercise groups completed a 12-week exercise program (MEG, 3.6 to 5.2 METs; VEG, > or =5.2 METs) that was monitored by accelerometers. We assessed body mass index (BMI), total fat area (TFA), visceral fat area (VFA), subcutaneous fat area (SFA), mid-thigh intramuscular adipose tissue (TIMAT), total skeletal muscle (TTM), low density skeletal muscle (TLDM), and normal density skeletal muscle (TNDM) using computed tomography, and measured insulin sensitivity with an insulin tolerance test (KITT), before and after the intervention. RESULTS: At baseline, the mean age was 53.8+/-7.9 years, duration of diabetes was 3.8+/-2.3 years, and BMI was 26.6+/-2.6 kg/m2. After 12 weeks, the percent change (%C) in BMI, TIMAT, and TLDM were not different among three groups. However, %C in TFA and VFA were significantly reduced in MEG compared to CG (P=0.026 and P=0.008, respectively). %C SFA was significantly reduced in VEG compared to CG (P=0.038) and %C TTM, TNDM, and KITT were significantly increased in VEG compared to the CG (P=0.044, P=0.007, and P=0.016, respectively). CONCLUSION: Although there was no difference in the change in BMI among groups, TFA and VFA were more reduced in MEG, and only VEG increased TTM, TNDM, and insulin sensitivity compared to CG.
Abdominal Fat ; Adipose Tissue ; Body Mass Index ; Diabetes Mellitus, Type 2 ; Exercise ; Female ; Humans ; Insulin ; Insulin Resistance ; Intra-Abdominal Fat ; Muscle, Skeletal ; Overweight ; Subcutaneous Fat ; Thigh

BACKGROUND/AIMS: Because of the similarities in the clinical presentations of Crohn's disease (CD) and intestinal tuberculosis (ITB), differential diagnosis is critical. Mesenteric adipose tissue hypertrophy and creeping fat are characteristic features of CD. The purpose of this study was to assess the usefulness of visceral fat for the differential diagnosis of CD and ITB. METHODS: We conducted a retrospective review of 50 patients with findings of CD or ITB between January 2005 and July 2008. Abdominal computed tomography (CT) was performed on all subjects during their first evaluation. The abdominal fat area was assessed using quantitative abdominal CT. RESULTS: The ratio of visceral fat to total fat (VF/TF) was significantly higher in male CD patients than in male ITB patients. The ratio of visceral fat to subcutaneous fat (VF/SF) was also higher in CD patients than in patients with ITB. For a VF/TF cut-off value of 0.46, the sensitivity and specificity for the diagnosis of CD were 42.1% and 93.3% respectively, with positive and negative predictive values of 88.9% and 56.0%, respectively. CONCLUSION: Measurement of the abdominal fat area using CT can be clinically useful for the differential diagnosis of CD and ITB.
Abdominal Fat ; Adipose Tissue ; Crohn Disease* ; Diagnosis ; Diagnosis, Differential* ; Humans ; Hypertrophy ; Intra-Abdominal Fat* ; Male ; Retrospective Studies ; Sensitivity and Specificity ; Subcutaneous Fat ; Tomography, X-Ray Computed ; Tuberculosis*