ライフサイエンスコーパス: anthropometry

1 better predictor of gallbladder disease than anthropometry.

2 LBM was assessed by anthropometry.

3 n 37 healthy subjects by ultrasonography and anthropometry.

4 rning is difficult to obtain by conventional anthropometry.

5 All surveys included anthropometry.

6 cember 2015 had longitudinal HIV testing and anthropometry.

7 Growth was assessed by anthropometry.

8 at at baseline, HIV is associated with lower anthropometry.

9 ody scanning has been proposed for automatic anthropometry.

10 eep apnea study, clinic BP measurements, and anthropometry.

11 obesity definitions that are based solely on anthropometry.

12 xamined their distribution by demography and anthropometry.

13 dies; and nutritional status was measured by anthropometry.

14 ollected on diarrhea, enteric pathogens, and anthropometry.

15 s with records of daily diarrhea and monthly anthropometry.

16 Assessments included anthropometry, 24-h ambulatory blood pressure monitoring

17 th patterns improved prediction of childhood anthropometry, above and beyond birth weight alone.

18 to test the association between bone age and anthropometry, adjusting for covariates including age, s

19 nt illness, MUAC <12.0 cm, WAZ <-3, dropping anthropometry, age <12 mo, being a twin, and a history o

20 index and body-fat phenotypes measured from anthropometry (ages 4, 6, and 8 years) and bioelectrical

21 re wasting, readmission, sustained recovery, anthropometry, all-cause mortality, and morbidity within

22 e to the religious month of Ramadan and body anthropometry among adult Muslims in Indonesia.

23 y was to investigate the association between anthropometry, amplitude of accommodation assessed by mi

24 We measured the children's anthropometry and asked caregivers whether children had

25 Complete data on asthma, anthropometry and atopy at age of 8 years, and potential

26 Anthropometry and biochemical indexes were not significa

27 Standardized anthropometry and bioelectric impedance measurements wer

28 Measures of adiposity were derived from anthropometry and bioelectrical impedance data at baseli

29 ren born at term were enrolled in the Infant Anthropometry and Body Composition (iABC) birth cohort b

30 In the Ethiopian infant anthropometry and body composition (iABC) birth cohort,

31 The Ethiopian Infant Anthropometry and Body Composition birth cohort included

32 ted under the MISAME-III trial, we evaluated anthropometry and body composition in newborns who were

33 At TEA and 6 mo CA, we assessed anthropometry and body composition using both dual-energ

34 Anthropometry and body composition were determined at ba

35 te exposures to show that improving maternal anthropometry and child condition at birth accounted for

36 Anthropometry and childhood obesity risk data were obtai

37 e foods frequency questionnaire (FFQ) whilst anthropometry and clinical data were measured by trained

38 performed differently in associations to BC/anthropometry and clinical outcomes.

39 We looked at growth, anthropometry and disease management in children with du

40 tive-PCR) were related to fetal and neonatal anthropometry and dual-energy X-ray absorptiometry measu

41 ry, physical activity, body composition (via anthropometry and dual-energy X-ray absorptiometry), die

42 We assessed adiposity at 12 years using anthropometry and dual-energy X-ray absorptiometry.

43 cutaneous adipose tissue) were assessed with anthropometry and dual-energy x-ray absorptiometry.

44 4,804 UK children aged 9-10 years, including anthropometry and fasting blood analytes (response rates

45 Anthropometry and fasting serum glucose were measured, a

46 s with similar skeletal and sexual maturity, anthropometry and femoral neck BMD Z-score to control co

47 Secondary outcomes included measures of anthropometry and fitness.

48 ations of biomedical (ie, maternal and child anthropometry and haemoglobin and preterm birth) and soc

49 ationships seen in univariate models between anthropometry and histology.

50 n resistance (homeostatic model assessment), anthropometry and intrabdominal fat were collected.

51 ition; (c) 7-day-diaries of food intake; (d) anthropometry and metabolic parameters; (e) academic sco

52 ost-discharge growth by influencing baseline anthropometry and modulating proteins involved in bone m

53 tus, biomarkers of bone turnover, and infant anthropometry and motor development in rural Ethiopia.

54 Body adiposity was measured with anthropometry and multifrequency bioimpedance.

55 the School-Age Health, Activity, Resilience, Anthropometry and Neurocognitive (SAHARAN) toolbox.

56 Day 1 consisted of anthropometry and pulmonary function testing.

57 Infant anthropometry and social-emotional development using the

58 Anthropometry and spirometry were obtained in children a

59 Height and weight were obtained via anthropometry and surveys administered in study particip

60 Anthropometry and the AF blood biomarker serum AF-albumi

61 to vary with the mass of the projectile, the anthropometry and the muscle characteristics of the subj

62 d at equivalent intervals, by using clinical anthropometry and whole-body potassium counting.

63 esearch facility, overnight polysomnography, anthropometry, and 9 blood pressure measurements over 2

64 rtension status, antihypertensive treatment, anthropometry, and biomarkers with incident reported fib

65 s (oral glucose tolerance), lipids, insulin, anthropometry, and blood pressure measured and metabolic

66 /- standard deviation [SD]: 2175 +/- 412 g), anthropometry, and body composition at TEA.

67 TEE, sleeping metabolic rate, anthropometry, and body composition were measured in 76

68 ized, and pooled data on full breastfeeding, anthropometry, and body composition.

69 ssets; caregiver engagement; and child diet, anthropometry, and development scores.

70 icronutrients that can affect hematopoiesis, anthropometry, and diet were assessed at 0, 6, and 12 mo

71 evaluate the associations between bone age, anthropometry, and diet.

72 tudy examined the pattern of dietary intake, anthropometry, and energy expenditure in a group of subj

73 domain z-scores, plasma fatty acid content, anthropometry, and eye tracking were secondary outcomes.

74 s for body composition from BIA measures and anthropometry, and factors associated with the accuracy

75 Dietary assessments, fasted anthropometry, and fasted serum samples were collected a

76 eeding before liver transplant improves HGS, anthropometry, and immune function in severely malnouris

77 Fasting blood, anthropometry, and lifestyle habits were collected after

78 nce a day for diarrhoea and once a month for anthropometry, and obtained data for household water and

79 HbA(1c) levels, anthropometry, and plasma glucose levels during oral glu

80 ewborn babies in terms of clinical findings, anthropometry, and survival.

81 tamin D [25(OH)D] (immunoassay), measures of anthropometry, and whole body fat mass and bone mineral

82 2-hour, 75-g oral glucose tolerance testing; anthropometry; and interviews.

83 nant women that improve newborn survival and anthropometry are needed to achieve the Sustainable Deve

84 n healthy growth and several determinants of anthropometry, are imprecise measures of nutritional sta

85 d with monthly home visits and every 3-month anthropometry assessments through 18 months.

86 emographic data, medical history, and infant anthropometry at birth were collected at each home visit

87 r the year 2000 with data on GWG, timing and anthropometry at birth, and neonatal mortality.

88 not followed up in terms of social class and anthropometry at birth.

89 te acute malnutrition (SAM or MAM), assessed anthropometry at discharge, and had >=1 follow-up assess

90 ny appreciable influence on their children's anthropometry at this point in childhood.

91 however, the difference in performance with anthropometry-based equations is minimal.

92 he hypothesis that there would be an optimum anthropometry-based IVGTT load calculation that, by achi

93 his study addressed the question of how well anthropometry-based predictive equations can resolve the

94 Anthropometry/BC and MSTs were compared with each other

95 Anthropometry, bioelectric impedance, dual-energy X-ray

96 y echocardiography, fatness was evaluated by anthropometry, bioimpedance, and ultrasound.

97 Blood pressure, anthropometry, biomarkers (cholesterol, triglycerides, a

98 Data on socio-demographic, anthropometry, blood pressure and blood samples were col

99 low-up visit underwent a detailed interview, anthropometry, blood pressure measurement, and comprehen

100 Anthropometry, blood pressure, and bone-mineral density

101 m an Australian birth cohort had measures of anthropometry, blood pressure, fasting insulin, glucose,

102 lipoprotein levels, hemostasis, hematology, anthropometry, blood pressure, medical history, lifestyl

103 Anthropometry, blood pressure, physical activity by acce

104 ed singletons, we estimate effects of ART on anthropometry, blood pressure, serum metabolic biomarker

105 Anthropometry, body composition (DXA), and serum 25(OH)D

106 At 0, 8, and 16 wk, we measured anthropometry, body composition by dual-energy absorptio

107 hildren from the original trial and measured anthropometry, body composition with bioelectrical imped

108 10 y, we obtained data from 320 children on anthropometry, body composition, abdominal subcutaneous

109 Anthropometry, body composition, and cardiometabolic hea

110 Anthropometry, body composition, and cardiometabolic mar

111 ecovery and examined their associations with anthropometry, body composition, and cardiometabolic ris

112 Anthropometry, body composition, blood pressure, heart r

113 tic markers and obesity-related traits i.e., anthropometry, body composition, growth, metabolites, ho

114 Anthropometry, body composition, hepatic fat, visceral a

115 Our outcomes of interest were anthropometry, body composition, lung function, physical

116 Demography, anthropometry, body-composition, dietary-intakes and DBS

117 tiometry, total-body potassium counting, and anthropometry by two techniques.

118 crimination, seroconversion, biomarkers, and anthropometry can be helpful, these are often costly, no

119 These data suggest that for women, anthropometry can provide better estimates of fatness th

120 Twenty continuous traits related to anthropometry, cardiovascular and renal function, metabo

121 est laboratory provides electrocardiography, anthropometry, chest and breast x-rays, visual acuity te

122 Anthropometry, child morbidity, and caregiver feeding an

123 teristics, fertility, intervention coverage, anthropometry, child mortality and cause-of-death struct

124 mics cross the placenta, so effects on fetal anthropometry could result from direct actions on the fe

125 ed 1821 infants (281 clusters) with complete anthropometry data at 6 and 12 mo in our analysis.

126 Anthropometry data were also collected and z scores were

127 n, 72 matched omnivores) were assessed using anthropometry, deuterium dilution, DXA, and carotid ultr

128 Information on anthropometry, diet, and smoking habits was obtained thr

129 We measured anthropometry, dietary vitamin D, and serum 25(OH)D with

130 easurements of fat distribution derived from anthropometry, dual-energy X-ray absorptiometry, and com

131 sition and fat distribution were assessed by anthropometry, dual-energy X-ray absorptiometry, and who

132 buffering the effects of stress, to predict anthropometry during childhood, and based on differentia

133 New data were collected on health, anthropometry, education, employment, and languages spok

134 In these studies, anthropometry (especially BMI) and diets were most linke

135 d be most sensitive to the effects of SES on anthropometry for better or for worse.

136 This study compared maternal and offspring anthropometry for moderately malnourished pregnant women

137 de genotyping data from the African Ancestry Anthropometry Genetics Consortium (AAAGC).

138 64 AA participants from the African Ancestry Anthropometry Genetics Consortium.

139 ries should be examined for their effects on anthropometry given their design to improve children's d

140 In addition, anthropometry, glucose and lipid metabolism, inflammatio

141 cluded body weight (primary) and measures of anthropometry, glucose metabolism, lipid profiles, blood

142 Standardized anthropometry, glucose tolerance tests, and serum assays

143 Anthropometry, glycated haemoglobin (HbA1c) and IgA tiss

144 determination, subjective global assessment, anthropometry, handgrip dynamometry, biochemical and ami

145 en birth by cesarean delivery and children's anthropometry has continued to increase, only a few stud

146 e intake, with multiple measures of neonatal anthropometry, have yet to be examined.

147 Anthropometry, Hb concentration, and serum ferritin (SF)

148 d dry weight, weight/height index, upper arm anthropometry, head circumference, and the protein equiv

149 model, dual-energy X-ray absorptiometry, and anthropometry in 234 healthy UK children and adolescents

150 abdominal computed tomography, and standard anthropometry in 3026 well-functioning 70-79-y-old parti

151 on between PBDEs and fetal growth or newborn anthropometry in a Spanish cohort (2003-2008).

152 betes diagnosis was associated with neonatal anthropometry in women with PCOS.

153 preterm was associated with changes in adult anthropometry in women.

154 ntegration of undernutrition, as assessed by anthropometry, in cause of death coding, including as pa

155 Adult anthropometry influences MM development; however, associ

156 ed these subjects by using several measures: anthropometry, iron status, information processing, Peab

157 Anthropometry is also limited to linear measurements, ig

158 ored in clinical and public health practice; anthropometry is thus only one of the diagnostic indicat

159 High-resolution surface anthropometry laser body scans of 3047 North American an

160 ided information on number of natural teeth, anthropometry, lifestyle factors, and illness-related fa

161 red during the physical examination included anthropometry, lipoproteins, blood pressure, glycemic st

162 ronutrient supplement trial, 21,174 received anthropometry <=72 h after birth, among whom 583 died in

163 children (<=age 5 y), evaluating measures of anthropometry (<=age 18 y).

164 ized health examination included measures of anthropometry, lung function, blood pressure and standar

165 ewborns in the 10th percentile of each birth anthropometry measure had higher BPF and BPS exposures d

166 abstracted from medical records and neonatal anthropometry measured postdelivery using standardized p

167 Blood samples and anthropometry measurements were collected in the first 3

168 estigate using multiple PRS and more precise anthropometry measures for better breast cancer risk pre

169 pressure traits, lipids, glycaemic markers, anthropometry measures, smoking, alcohol consumption and

170 er enzymes and other serological biomarkers, anthropometry, measures of beta-cell function, insulin s

171 eved by the four blood test model and by the anthropometry models.

172 Adverse events, anthropometry, mood, and pain were similar in the two gr

173 esponse to other micronutrient deficiencies, anthropometry, morbidity, and usual dietary intake.

174 eillance program, we measured the following: anthropometry; nutritional biomarkers including serum fe

175 e was length-for-age z score (LAZ), with all anthropometry obtained <48 h post delivery.

176 enced data on child nutritional status using anthropometry of children under five years old (CU5) and

177 ameters defining the modeled muscles and the anthropometry of the two-segment models were specific to

178 of the intervention groups on any measure of anthropometry or any of the child development outcomes i

179 Differences are not explained by parental anthropometry or comorbidities, polygenic risk score, br

180 .02) increase in hemoglobin but no effect on anthropometry or iron or vitamin A deficiencies.

181 on methods for gestational age dating, birth anthropometry, or study design.

182 Interactions were present between race and anthropometry (P-interaction((race x body mass index)) =

183 e BA-related differences in inflammatory and anthropometry parameters.

184 my, cognition, lifestyle, sociodemographics, anthropometry, physical health, and adult and child ment

185 Anthropometry predicts SM better in men than in women.

186 on of HIV disease, serum HDL cholesterol and anthropometry, provides high diagnostic sensitivity and

187 Anthropometry reflects undernutrition.

188 bioelectrical impedance data at baseline and anthropometry repeated 3 years later.

189 m the Civilian American and European Surface Anthropometry Resource data set were included.

190 y outcomes were diet, physical activity, and anthropometry; secondary outcomes were stress and anxiet

191 The primary outcome was measured anthropometry; secondary outcomes were the presence of a

192 Other measurements included demographics, anthropometry, serum 25-hydroxyvitamin D (25-OHD), intac

193 No changes in anthropometry, serum biochemistry, or diet-related water

194 ncluded vitals, select biochemical analytes, anthropometry, serum zinc, and body composition (via DXA

195 istical relationship between temperature and anthropometry shows that when the current temperature is

196 models were adjusted for sociodemographics, anthropometry, smoking, comorbidities, and COVID-19 vacc

197 ac data for a group of athletes with greater anthropometry than any previously studied athlete group

198 fulness of bioelectrical impedance (BI) with anthropometry to measure total body water (TBW) was eval

199 HbA1c >= 5.7% (AUROC = 0.70 [0.64-0.75]) and anthropometry trio + HbA1c >= 5.7% (AUROC = 0.71 [0.65-0

200 , waist-to-height ratio and total skinfolds (anthropometry trio) as continuous variables to HbA1c (AU

201 ast child was born in August 2021, and birth anthropometry was analyzed from 1,708 pregnancies (872 c

202 Child anthropometry was measured at around 6 weeks, and every

203 eristics were obtained by questionnaire, and anthropometry was measured.

204 However, the association between SEQ and anthropometry was not significant (P > 0.05).

205 Anthropometry was performed at ages 5, 10, and 16/17 y.

206 For a subset of children, anthropometry was re-measured after 3 mo.

207 SD scores (SDS) for anthropometry were calculated until 6-mo corrected age.

208 Maternal and infant anthropometry were followed until the child was 3 mo old

209 No differences in growth or anthropometry were found between children with T1DM + CD

210 age 3 y in studies where blood pressure and anthropometry were measured under standardized condition

211 metabolites of 1C metabolism (SAM, SAH) and anthropometry were measured.

212 ution, bioelectrical impedance analysis, and anthropometry were used to determine body composition in

213 NPP is a consistent negative predictor of anthropometry, which may reflect the growth-limiting eff

214 ssociated with improvements in postdischarge anthropometry, while zinc supplementation was associated

215 , these intermediate factors predicted child anthropometry, with the strongest links being mother's e

216 We measured anthropometry within 7 days of birth, at 3 and 6 weeks,

217 onthly SQ-LNS batch distributions had higher anthropometry z scores [length-for-age z score (LAZ): +0