1182 related items for PubMed ID: 15054426
1. Impact of indexing resting metabolic rate against fat-free mass determined by different body composition models.
LaForgia J, van der Ploeg GE, Withers RT, Gunn SM, Brooks AG, Chatterton BE.
Eur J Clin Nutr; 2004 Aug; 58(8):1132-41. PubMed ID: 15054426
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2. Influence of methods used in body composition analysis on the prediction of resting energy expenditure.
Korth O, Bosy-Westphal A, Zschoche P, Glüer CC, Heller M, Müller MJ.
Eur J Clin Nutr; 2007 May; 61(5):582-9. PubMed ID: 17136038
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3. Predicting the resting metabolic rate of 30-60-year-old Australian males.
van der Ploeg GE, Withers RT.
Eur J Clin Nutr; 2002 Aug; 56(8):701-8. PubMed ID: 12122544
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4. Validation of DXA body composition estimates in obese men and women.
LaForgia J, Dollman J, Dale MJ, Withers RT, Hill AM.
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5. Effects of habitual physical activity on the resting metabolic rates and body compositions of women aged 35 to 50 years.
Gilliat-Wimberly M, Manore MM, Woolf K, Swan PD, Carroll SS.
J Am Diet Assoc; 2001 Oct; 101(10):1181-8. PubMed ID: 11678489
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6. Body composition: validity of segmental bioelectrical impedance analysis.
LaForgia J, Gunn S, Withers RT.
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Carlsson E, Bosaeus I, Nordgren S.
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8. Total body protein status assessed by different estimates of fat-free mass in adult peritoneal dialysis patients.
Borovnicar DJ, Wong KC, Kerr PG, Stroud DB, Xiong DW, Strauss BJ, Atkins RC.
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9. Validity of deuterium oxide dilution for the measurement of body fat among Singaporeans.
Deurenberg-Yap M, Deurenberg P.
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10. A comparison of four methods of estimating the body composition of male endurance athletes.
Withers RT, Smith DA, Chatterton BE, Schultz CG, Gaffney RD.
Eur J Clin Nutr; 1992 Nov; 46(11):773-84. PubMed ID: 1425531
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11. Differences in daily energy expenditure in lean and obese women: the role of posture allocation.
Johannsen DL, Welk GJ, Sharp RL, Flakoll PJ.
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12. DXA: potential for creating a metabolic map of organ-tissue resting energy expenditure components.
Hayes M, Chustek M, Wang Z, Gallagher D, Heshka S, Spungen A, Bauman W, Heymsfield SB.
Obes Res; 2002 Oct; 10(10):969-77. PubMed ID: 12376576
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13. Validation of air-displacement plethysmography for estimation of body fat mass in healthy elderly subjects.
Bosy-Westphal A, Mast M, Eichhorn C, Becker C, Kutzner D, Heller M, Müller MJ.
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14. Body composition estimated by bioelectrical impedance in the Swedish elderly. Development of population-based prediction equation and reference values of fat-free mass and body fat for 70- and 75-y olds.
Dey DK, Bosaeus I, Lissner L, Steen B.
Eur J Clin Nutr; 2003 Aug; 57(8):909-16. PubMed ID: 12879085
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15. Body composition by a three compartment model in adult Indian male and female subjects.
Borgonha S, Kuriyan R, Shetty P, Ferro-Luzzi A, Kurpad AV.
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16. Age-related differences in fat-free mass, skeletal muscle, body cell mass and fat mass between 18 and 94 years.
Kyle UG, Genton L, Hans D, Karsegard L, Slosman DO, Pichard C.
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17. Energy costs of standard activities among Indian adults.
Kanade AN, Gokhale MK, Rao S.
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18. Four-compartment model and validation of deuterium dilution technique to estimate fat-free mass in Mexican youth.
Ramírez E, Valencia ME, Moya-Camarena SY, Alemán-Mateo H, Méndez RO.
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19. Low relative resting metabolic rate and body weight gain in adult Caucasian Italians.
Buscemi S, Verga S, Caimi G, Cerasola G.
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20. Evaluation of a foot-to-foot impedance meter measuring extracellular fluid volume in addition to fat-free mass and fat tissue mass.
Jaffrin MY, Kieffer R, Moreno MV.
Nutrition; 2005 Mar; 21(7-8):815-24. PubMed ID: 15975489
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