In vivo validation of whole body composition estimates from dual-energy X-ray absorptiometry.
about
Influence of exercise intensity in older persons with unchanged habitual nutritional intake: skeletal muscle and endocrine adaptations.Influences of carbohydrate plus amino acid supplementation on differing exercise intensity adaptations in older persons: skeletal muscle and endocrine responses.Reference Values of Skeletal Muscle Mass for Korean Children and Adolescents Using Data from the Korean National Health and Nutrition Examination Survey 2009-2011.Use of fat mass and fat free mass standard deviation scores obtained using simple measurement methods in healthy children and patients: comparison with the reference 4-component modelDevelopment and comparison of two field-based body fat prediction equations: NHANES 1999 - 2004Reference values for body composition and anthropometric measurements in athletesRelationship between anthropometric parameters and open angle glaucoma: The Korea National Health and Nutrition Examination Survey.Cross-validation of generalised body composition equations with diverse young men and women: the Training Intervention and Genetics of Exercise Response (TIGER) Study.Use of air displacement plethysmography in the determination of percentage of fat mass in african american childrenThe body adiposity index (hip circumference ÷ height(1.5)) is not a more accurate measure of adiposity than is BMI, waist circumference, or hip circumference.Assessment of body composition in Indian adults: comparison between dual-energy X-ray absorptiometry and isotope dilution technique.Bioimpedance spectroscopy for the estimation of fat-free mass in end-stage renal disease.Relationship between body composition parameters and metabolic syndrome in young Thai adultsValidity of air-displacement plethysmography in the assessment of body composition changes in a 16-month weight loss programRandomized controlled trial to evaluate the effects of combined progressive exercise on metabolic syndrome in breast cancer survivors: rationale, design, and methodsComparison of different techniques to measure body composition in moderately active adolescents.Bone mineral density and body composition of the United States Olympic women's field hockey teamCharacteristics of body fat, body fat percentage and other body composition for Koreans from KNHANES IV.Predicting fat percent by skinfolds in racial groups: Durnin and Womersley revisited.Improved body composition assessment using biceps skinfold and physical activity score in premenarcheal girls: a DXA-based validation study.National Athletic Trainers' Association position statement: safe weight loss and maintenance practices in sport and exercise.Nutritional deficiencies during critical illness.Effects of intensive insulin therapy alone and in combination with pioglitazone on body weight, composition, distribution and liver fat content in patients with type 2 diabetesDual-energy x-ray absorptiometry to measure the effects of a thirteen-week moderate to vigorous aquatic exercise and nutritional education intervention on percent body fat in adults with intellectual disabilities from group home settings.Measuring body composition in individuals with intellectual disability: a scoping review.Subjective clinical lipoatrophy assessment correlates with DEXA-measured limb fat.Relationship between total body adiposity assessed by dual-energy X-ray absorptiometry, birth weight and metabolic syndrome in young Thai adults.Total body composition estimated by standing-posture 8-electrode bioelectrical impedance analysis in male wrestlers.Comparative measurements of total body water in healthy volunteers by online breath deuterium measurement and other near-subject methods.Correction of Hypothyroidism Leads to Change in Lean Body Mass without Altering Insulin Resistance.Effects of five-year treatment with testosterone undecanoate on metabolic and hormonal parameters in ageing men with metabolic syndrome.Percent body fat via DEXA: comparison with a four-compartment model.Determination of basal metabolic rate and body composition with bioelectrical impedance method in children with cerebral palsy.Validity of two-component models for estimating body fat of black men.Comparison between dual-energy X-ray absorptiometry and skinfold thickness in assessing body fat in overweigh/obese adult patients with type-2 diabetes.Maternal androgen excess reduces placental and fetal weights, increases placental steroidogenesis, and leads to long-term health effects in their female offspring.Effect of Tofogliflozin on Body Composition and Glycemic Control in Japanese Subjects with Type 2 Diabetes Mellitus.Reliability and validity of body composition measures in female athletes.Comparison of body composition methods in overweight and obese children.Accuracy of Anthropometric Equations for Estimating Body Fat in Professional Male Soccer Players Compared with DXA.
P2860
Q30475244-6D5773B1-5E09-41FE-BF68-4D93CF1E2A66Q30475245-D95609CF-93B9-477E-B075-23A28EA04C99Q31075835-EB9DC668-A8C6-477F-BC28-EC0B80F2289DQ33407870-FD65EDC7-EA56-4945-96FA-C59639359D00Q33448745-A3C5FA96-533A-41E9-9974-A7807BB76F56Q33618879-9BD4E420-EAB8-468B-95EC-6F85EAF30D26Q33648144-035EA5B0-4883-4A7D-BEBA-C665A9CA076CQ33863020-561CE34E-2F61-4A45-A35D-72400329ACBCQ33937128-7BC330DE-3A95-451F-923D-6652768EDEBCQ34266642-404142B0-06AF-49A8-93C8-B264D6A07984Q34303896-BB702B1C-A384-49C3-8091-E2D646C01996Q34915225-B10DF02D-C829-4E44-BAC3-ABD444CAEDA6Q34949079-22647B00-D6FF-4670-82DD-5419A695E5F4Q35017409-778A59E4-5571-4869-B944-C2243CA38AFCQ35141411-B7E55D30-4CAB-442F-8D9D-09DE0CE8C0A7Q35556716-21123465-CADE-4A1A-AC9F-E00B606AB353Q35556808-EAB6F1F0-A655-46E1-B32C-ED4C47854F8DQ35590635-BE09A2AE-CC35-4F25-9B7C-2456F4ECD258Q35841370-6D7F5790-0F11-479D-B1B2-F6AB9992E7B8Q36035819-9FA1FC56-2BD8-4BEB-BC5F-BD71B1B1B86EQ36165604-C96B5F55-07C2-4C85-8B21-4010B3C63843Q36271082-24D541BD-4AC6-4719-B9C5-41504A7E3E56Q36632132-7FDCF4B2-8B1A-4336-8B1A-BC219CE0EDEDQ36664304-210BA7DF-7ED0-4135-9AC2-27430D981B18Q36898540-7E6157C1-5AC4-4726-AA1A-1F0C7D336B61Q37437722-A6C65B2E-01F4-46D1-B50E-330976AF84B4Q37471481-1BD01278-3BE1-4E81-B806-8F5500B3C72DQ37483526-0BF32ED3-EC4D-4556-86DC-A7609B8ED13AQ37551611-4792F673-17D7-4F4A-B956-209BAAAB996AQ37564272-48E12D0C-D063-4E62-B7D0-54CAB96692D6Q37622016-5D956299-0199-4007-AE49-CE439B4741E2Q38521294-BDD23F77-9E60-48F2-8CE0-70A5C82F8F1BQ42448678-AA1EA769-7A76-40C7-8D60-5697E91F82E0Q43533442-3E2781C4-53EF-427C-B911-3E9A0C8E83D5Q47105023-3530A7F9-16D3-4457-9678-16C88ADE6408Q51304991-6F8F1655-1C74-4720-85B0-ED8A0A321005Q51744102-D0606E1E-19F3-446E-BBA8-69F61DFBB72EQ52204866-C0EDBE97-C5E0-4183-8FC0-C9F559AFF804Q52411280-69E8833E-A412-434D-A196-177B3DE03F89Q54962019-82A8A0E7-18D2-4861-9A8D-01576D6A8B78
P2860
In vivo validation of whole body composition estimates from dual-energy X-ray absorptiometry.
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年学术文章
@wuu
1997年学术文章
@zh
1997年学术文章
@zh-cn
1997年学术文章
@zh-hans
1997年学术文章
@zh-my
1997年学术文章
@zh-sg
1997年學術文章
@yue
1997年學術文章
@zh-hant
name
In vivo validation of whole bo ...... l-energy X-ray absorptiometry.
@en
In vivo validation of whole bo ...... l-energy X-ray absorptiometry.
@nl
type
label
In vivo validation of whole bo ...... l-energy X-ray absorptiometry.
@en
In vivo validation of whole bo ...... l-energy X-ray absorptiometry.
@nl
prefLabel
In vivo validation of whole bo ...... l-energy X-ray absorptiometry.
@en
In vivo validation of whole bo ...... l-energy X-ray absorptiometry.
@nl
P2093
P2860
P1476
In vivo validation of whole bo ...... l-energy X-ray absorptiometry.
@en
P2093
C M Modlesky
K J Cureton
M A Sloniger
M Saunders
P2860
P304
P356
10.1152/JAPPL.1997.83.2.623
P407
P577
1997-08-01T00:00:00Z