Prediction of resting energy expenditure from fat-free mass and fat mass

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Prediction of resting energy expenditure from fat-free mass and fat mass

KM Nelson, RL Weinsier, CL Long and Y Schutz
Department of Research, Baptist Medical Centers, Birmingham, AL 35211.

On the basis of literature values, the relationship between fat-free mass (FFM), fat mass (FM), and resting energy expenditure [REE (kJ/24 h)] was determined for 213 adults (86 males, 127 females). The objectives were to develop a mathematical model to predict REE based on body composition and to evaluate the contribution of FFM and FM to REE. The following regression equations were derived: 1) REE = 1265 + (93.3 x FFM) (r2 = 0.727, P < 0.001); 2) REE = 1114 + (90.4 x FFM) + (13.2 x FM) (R2 = 0.743, P < 0.001); and 3) REE = (108 x FFM) + (16.9 x FM) (R2 = 0.986, P < 0.001). FM explained only a small part of the variation remaining after FFM was accounted for. The models that include both FFM and FM are useful in examination of the changes in REE that occur with a change in both the FFM and FM. To account for more of the variability in REE, FFM will have to be divided into organ mass and skeletal muscle mass in future analyses.

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				A. M Johnstone, S. D Murison, J. S Duncan, K. A Rance, and J. R Speakman Factors influencing variation in basal metabolic rate include fat-free mass, fat mass, age, and circulating thyroxine but not sex, circulating leptin, or triiodothyronine Am. J. Clinical Nutrition, November 1, 2005; 82(5): 941 - 948. [Abstract] [Full Text] [PDF]

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				M. J Muller, A. Bosy-Westphal, S. Klaus, G. Kreymann, P. M Luhrmann, M. Neuhauser-Berthold, R. Noack, K. M Pirke, P. Platte, O. Selberg, et al. World Health Organization equations have shortcomings for predicting resting energy expenditure in persons from a modern, affluent population: generation of a new reference standard from a retrospective analysis of a German database of resting energy expenditure Am. J. Clinical Nutrition, November 1, 2004; 80(5): 1379 - 1390. [Abstract] [Full Text] [PDF]

				P. S. MacLean, J. A. Higgins, G. C. Johnson, B. K. Fleming-Elder, J. C. Peters, and J. O. Hill Metabolic adjustments with the development, treatment, and recurrence of obesity in obesity-prone rats Am J Physiol Regulatory Integrative Comp Physiol, August 1, 2004; 287(2): R288 - R297. [Abstract] [Full Text] [PDF]

				S. K. Das, S. B Roberts, M. A McCrory, L. G. Hsu, S. A Shikora, J. J Kehayias, G. E Dallal, and E. Saltzman Long-term changes in energy expenditure and body composition after massive weight loss induced by gastric bypass surgery Am. J. Clinical Nutrition, July 1, 2003; 78(1): 22 - 30. [Abstract] [Full Text] [PDF]

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				S. B. Heymsfield, D. Gallagher, D. P. Kotler, Z. Wang, D. B. Allison, and S. Heshka Body-size dependence of resting energy expenditure can be attributed to nonenergetic homogeneity of fat-free mass Am J Physiol Endocrinol Metab, January 1, 2002; 282(1): E132 - E138. [Abstract] [Full Text] [PDF]

				G. de Simone, F. Pasanisi, and F. Contaldo Link of Nonhemodynamic Factors to Hemodynamic Determinants of Left Ventricular Hypertrophy Hypertension, July 1, 2001; 38(1): 13 - 18. [Abstract] [Full Text] [PDF]

				P. C. Even, V. Rolland, S. Roseau, J.-C. Bouthegourd, and D. Tome Prediction of basal metabolism from organ size in the rat: relationship to strain, feeding, age, and obesity Am J Physiol Regulatory Integrative Comp Physiol, June 1, 2001; 280(6): R1887 - R1896. [Abstract] [Full Text] [PDF]

				M. Sun, B. A Gower, A. A Bartolucci, G. R Hunter, R. Figueroa-Colon, and M. I Goran A longitudinal study of resting energy expenditure relative to body composition during puberty in African American and white children Am. J. Clinical Nutrition, February 1, 2001; 73(2): 308 - 315. [Abstract] [Full Text] [PDF]

				A. Polito and A. Ferro-Luzzi Reply to DJ Stensel Am. J. Clinical Nutrition, February 1, 2001; 73(2): 359 - 359. [Full Text] [PDF]

				R. L Weinsier, T. R Nagy, G. R Hunter, B. E Darnell, D. D Hensrud, and H. L Weiss Do adaptive changes in metabolic rate favor weight regain in weight-reduced individuals? An examination of the set-point theory Am. J. Clinical Nutrition, November 1, 2000; 72(5): 1088 - 1094. [Abstract] [Full Text] [PDF]

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				K. Illner, G. Brinkmann, M. Heller, A. Bosy-Westphal, and M. J. Muller Metabolically active components of fat free mass and resting energy expenditure in nonobese adults Am J Physiol Endocrinol Metab, February 1, 2000; 278(2): E308 - E315. [Abstract] [Full Text] [PDF]

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				Y. Schutz, C. M Rueda-Maza, M. Zaffanello, and C. Maffeis Whole-body protein turnover and resting energy expenditure in obese, prepubertal children Am. J. Clinical Nutrition, May 1, 1999; 69(5): 857 - 862. [Abstract] [Full Text] [PDF]

				R. N. Dickerson, R. O. Brown, J. G. Gervasio, E. B. Hak, L. J. Hak, and J. E. Williams Measured Energy Expenditure of Tube-Fed Patients with Severe Neurodevelopmental Disabilities J. Am. Coll. Nutr., February 1, 1999; 18(1): 61 - 68. [Abstract] [Full Text] [PDF]

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Prediction of resting energy expenditure from fat-free mass and fat mass

				T. R. Nagy, B. A. Gower, R. M. Shewchuk, and M. I. Goran Serum Leptin and Energy Expenditure in Children J. Clin. Endocrinol. Metab., December 1, 1997; 82(12): 4149 - 4153. [Abstract] [Full Text] [PDF]