ライフサイエンスコーパス: body fat distribution

1 mericans that is reflected in the pattern of body fat distribution.

2 differentiation and contribute to changes in body fat distribution.

3 n are independent of both obesity status and body fat distribution.

4 by age, degree of fitness, body fat mass, or body fat distribution.

5 ose tissue and could theoretically influence body fat distribution.

6 d waist circumference is a better measure of body fat distribution.

7 asting insulin concentrations or measures of body fat distribution.

8 rences between the two groups in obesity and body fat distribution.

9 dence is limited and there are no studies on body fat distribution.

10 aist-to-hip ratio, suggestive of a favorable body fat distribution.

11 lic impact of BMI-independent differences in body fat distribution.

12 etic susceptibility to overall adiposity and body fat distribution.

13 ave identified numerous loci associated with body fat distribution.

14 g to an even greater exacerbation of altered body fat distribution.

15 smoking, and obesity with an intra-abdominal body fat distribution.

16 erstand the contributions of this pathway to body fat distribution.

17 ay be related to patterns of ethnic-specific body fat distribution.

18 at storage cannot explain sex differences in body fat distribution.

19 able, long-term, and sex-specific effects on body fat distribution.

20 cts of diet may be differentially related to body fat distribution.

21 whole- and refined-grain foods may influence body fat distribution.

22 ated by factors independent of variations in body fat distribution.

23 Abdominal adipocyte size is related to body fat distribution.

24 a role in the development or maintenance of body fat distribution.

25 ifferent depots, which may in turn impact on body fat distribution.

26 dipose tissue depots may be a determinant of body fat distribution.

27 inhibitors may be associated with changes in body-fat distribution.

28 relations between changes in body weight and body fat distribution (1986-1996) and the subsequent ris

29 methods of quantifying obesity, fatness and body fat distribution, (5) increasing interest in the in

30 Central body fat distribution affects kidney function.

31 reductions of body weight, BMI, and central body fat distribution after adjustment for age and self-

32 hology were unaffected, resulting in altered body fat distribution and a reduced VAT:SAT ratio in zeb

33 Both body fat distribution and adipocyte size are associated

34 Simple measures of body fat distribution and body composition were found to

35 We studied the association of body fat distribution and body composition with flow-res

36 Associations between abnormal body fat distribution and clinical variables are poorly

37 style interventions were related to improved body fat distribution and ectopic fat accumulation.

38 sistance and associated risk factors such as body fat distribution and ectopic lipid deposition.

39 pose-related circulating miRNAs may regulate body fat distribution and glucose metabolism.

40 nd examined depot-specific associations with body fat distribution and insulin sensitivity (S(I)).

41 s in zebrafish to show that Plxnd1 regulates body fat distribution and insulin sensitivity.

42 se our understanding of the genetic basis of body fat distribution and its molecular links to cardiom

43 blicly available, will inform the biology of body fat distribution and its relationship with disease.

44 with SIClamp in Caucasian Americans, whereas body fat distribution and lean mass showed stronger corr

45 ad to loss of ACVR1C gene function influence body fat distribution and protect from type 2 diabetes.

46 interventions were associated with improved body fat distribution and reductions of diabetogenic ect

47 A methylation is known to be associated with body fat distribution and the etiology of PCOS, we condu

48 es have investigated the association between body fat distribution and the risk of nonalcoholic fatty

49 r understanding of the genetic regulation of body fat distribution and total body fat, we set out to

50 tudies have implicated PLEXIN D1 (PLXND1) in body fat distribution and type 2 diabetes.

51 ing obesity and mortality, with reference to body fat distribution and weight gain, and consider pote

52 ipocyte kinetics in individuals with varying body fat distributions and degrees of metabolic health a

53 cluding type 2 diabetes (T2D), lipid levels, body fat distribution, and adiposity, although most caus

54 After further adjustments for obesity, body fat distribution, and behavioral factors, African-A

55 tudy investigates the association among BMI, body fat distribution, and clinical and molecular charac

56 e-treated mice showed identical weight gain, body fat distribution, and insulin sensitivity compared

57 y Plxnd1 as a novel regulator of VAT growth, body fat distribution, and insulin sensitivity in both z

58 littermates displayed identical weight gain, body fat distribution, and macrophage infiltration into

59 the body play an important role in obesity, body fat distribution, and potential functional differen

60 tion against diet-induced obesity, a healthy body fat distribution, and reduced plasma triacylglycero

61 y the adjustment for differences in obesity, body fat distribution, and severity of hyperglycemia.

62 nal factors on glucose and lipid metabolism, body-fat distribution, and liver fat content in subjects

63 Overall adiposity and body fat distribution are heritable traits associated wi

64 Obesity and body fat distribution are important risk factors for the

65 The genetic determinants of body fat distribution are poorly understood.

66 Age-dependent changes in insulin action and body fat distribution are risk factors for the developme

67 d, but associations with precise measures of body fat distribution are unclear.

68 We analyzed the association of body-fat distribution, assessed by waist-to-hip ratio ad

69 o adjusted for BMI (WHRadjBMI), a measure of body fat distribution, associates with increased risk fo

70 The purpose of this study was to assess body fat distribution before and shortly after normaliza

71 related with improvements in body weight and body fat distribution, but these associations were not s

72 Preoperative assessment of body fat distribution by a CT scan, as a surrogate for f

73 ined by dual-energy X-ray absorptiometry and body fat distribution by computed tomography in subsets

74 new insights into the underlying genetics of body fat distribution by conducting sample-size-weighted

75 type natriuretic peptide (NT-proBNP); and 2) body fat distribution by dual energy x-ray absorptiometr

76 therapeutic avenues for altering obesity and body fat distribution by modulating lipid accumulation.

77 RSPO3 may also promote upper-body fat distribution by stimulating abdominal adipose p

78 y composition (by hydrostatic weighing), and body fat distribution (by computed tomography scan at L4

79 s evidence that higher body fat and visceral body fat distribution caused elevated ACR, while a metab

80 Body fat distribution changes were similar between treat

81 The N[t]RTI regimen affected lipid and body fat distribution changes.

82 y was to evaluate which method of evaluating body fat distribution compares most favorably with dual-

83 ition (dual energy X-ray absorptiometry) and body fat distribution (computed tomography), cardiorespi

84 To examine how body fat distribution contributes to insulin sensitivity

85 Variation in body fat distribution contributes to the metabolic seque

86 In conclusion, the genetic influence on body fat distribution could be mediated via several spec

87 A subgroup of 13 participants had whole body fat distribution determined using in vivo magnetic

88 effects on lipids, adverse events (AEs), and body fat distribution (dual-energy x-ray absorptiometry)

89 or metabolic changes, namely alterations in body fat distribution, dyslipidemia, and lactic acidosis

90 dence-based research is discussed concerning body fat distribution, dyslipidemia, hypertension, diabe

91 Body fat distribution exerts a major influence on endoge

92 after the intervention, intrahepatic lipids, body fat distribution, fasting and postprandial response

93 aling in SAT endothelium in regulating whole-body fat distribution for metabolic health and highlight

94 lysis from infusion of [1-13C]palmitate, and body fat distribution from computed tomography.

95 Body fat distribution has been cross-sectionally associa

96 e weight restoration on body composition and body fat distribution has previously been studied in ano

97 The reasons for these differences in body fat distribution have not been clearly identified b

98 ks associated with weight gain or changes in body fat distribution have not been fully elucidated.

99 Obese individuals with an upper-body-fat distribution have increased health complication

100 investigate the relationship between BP and body fat distribution in a large cross-sectional pediatr

101 association between natriuretic peptides and body fat distribution in a multiethnic cohort.

102 al effects of insulin resistance and central body fat distribution in determining the metabolic syndr

103 cated in premature ageing, but the effect of body fat distribution in humans is unknown.

104 eal FA storage may play a role in regulating body fat distribution in obese persons.

105 onal diabetes is associated with unfavorable body fat distribution in offspring.

106 ty acid (FFA) storage pathway in determining body fat distribution in postabsorptive humans and wheth

107 -infected children than in the HEU children, body fat distribution in the HIV-infected children follo

108 Tissue-specific exercise-induced changes in body fat distribution in type 2 diabetes mellitus were d

109 These observations suggest that obesity and body fat distribution, in addition to socioeconomic and

110 Specific patterns of body fat distribution, in particular fatty liver, may pr

111 We examined body fat distribution, independent of BMI and depressive

112 Thus, these results suggest that central body fat distribution, independent of BMI, is associated

113 Studies of body fat distribution, insulin resistance, glucose metab

114 Body fat distribution is a heritable risk factor for car

115 Body fat distribution is a heritable trait and a well-es

116 Body fat distribution is a major, heritable risk factor

117 Body fat distribution is a predictor of metabolic health

118 Body fat distribution is an important predictor of the m

119 Body-fat distribution is a risk factor for adverse cardi

120 We measured body fat distribution, left ventricular mass, and blood

121 m oral glucose tolerance tests, MRI-measured body fat distribution, liver fat content and genetic ris

122 nemia," where T2D associations are driven by body fat distribution, liver function, circulating lipid

123 Alternatively, their body fat distribution may be different.

124 Body fat distribution may play an important role in the

125 Regional body fat distribution may represent an independent risk

126 eneral adiposity measured as BMI and central body fat distribution measured as waist-to-hip ratio adj

127 nome-wide association study meta-analysis of body fat distribution, measured by waist-to-hip ratio (W

128 dings on the prospective association between body fat distribution measures and coronary heart diseas

129 We hypothesized that detailed body fat distribution measures might be more strongly as

130 Studying detailed body fat distribution measures might provide better insi

131 ecifically evaluating whether adult size and body fat distribution mediated the association.

132 suggests central roles for Wnt signaling in body fat distribution, obesity, and metabolic dysfunctio

133 Conversely, upper-body fat distribution, obesity, hypertriglyceridemia, su

134 ing i3vt insulin sensitivity and changed the body fat distribution of our females to resemble that of

135 etric measurements, blood pressure and total body fat distribution] of these adolescents were collect

136 The impact of obesity and body fat distribution on breast cancer patients' risk of

137 The impact of body fat distribution on heart failure risk requires pro

138 Long-term therapy did not alter body-fat distribution or blood pressure.

139 Assessment of body fat distribution, particularly visceral adipose tis

140 loping coronary heart disease in relation to body fat distribution showed inconsistent results, and a

141 y, the women in the E+P group had less upper-body fat distribution than did the women in the placebo

142 Western-style diet (pwWD) leads to shifts in body fat distribution that are associated with poorer in

143 ted to any measures of glucose metabolism or body fat distribution, the association between dietary g

144 rogen has significant impact on body fat and body fat distribution, the cellular mechanisms that infl

145 xpand the analyses by including a measure of body fat distribution, the waist:hip ratio.

146 The relation of body fat distribution to left ventricular (LV) structure

147 types suggests the importance of considering body fat distribution to stroke risk.

148 MR imaging to determine the contribution of body fat distribution to the differing prevalence of hep

149 al-energy X-ray absorptiometry (DXA) derived body-fat distribution traits.

150 udy describes sex differences in obesity and body fat distribution using commonly used assessment met

151 ansient elastography; muscle composition and body fat distribution using water-fat separated whole bo

152 res of adiposity, including body mass index, body fat distribution (waist circumference and waist-to-

153 adiposity (body mass index and fat mass) and body fat distribution (waist-to-thigh ratio, waist circu

154 e the importance of obtaining information on body fat distribution, waist circumference in particular

155 Body fat distribution was assessed based on anthropometr

156 d1 mutants, the effect on VAT morphology and body fat distribution was dependent on induction of the

157 Body weight, but not body fat distribution, was related to breast cancer risk

158 e fatty acid (FFA) storage may contribute to body fat distribution, we measured FFA (palmitate) stora

159 Body composition and body fat distribution were assessed with dual-energy X-r

160 Body composition and body fat distribution were measured by dual-energy X-ray

161 t, sitting height, frame size), obesity, and body fat distribution were measured directly.

162 e stress (Montreal Imaging Stress Task), and body fat distribution were measured using advanced magne

163 Humans have a large variability in body fat distribution, which has tremendous implications

164 evaluate the relations of total body fat and body fat distribution with NAFLD in the general US popul

165 isease were also associated with a favorable body fat distribution, with a lower waist-to-hip ratio (