Energy Expenditure, Fat Oxidation, and Body Weight Regulation: A Study of Metabolic Adaptation to Long- Term Weight Change

doi:10.1210/jc.85.3.1087

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Energy Expenditure, Fat Oxidation, and Body Weight Regulation: A Study of Metabolic Adaptation to Long- Term Weight Change

Christian Weyer, Richard E. Pratley, Arline D. Salbe, Clifton Bogardus, Eric Ravussin and P. Antonio Tataranni

Clinical Diabetes and Nutrition Section, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Phoenix, Arizona 85016

Address all correspondence and requests for reprints to: Christian Weyer, M.D., Clinical Diabetes and Nutrition Section, National Institutes of Health, 4212 N. 16th Street, Room 5-41, Phoenix, Arizona 85016. E-mail: cweyer{at}phx.niddk.nih.gov

Relatively low rates of energy expenditure and fat oxidationpredict body weight gain. Weight gain, in turn, is associatedwith increases in energy expenditure and fat oxidation thatmay oppose further weight change. In response to experimentalweight gain induced by overfeeding, increases in energy expenditureand fat oxidation are overcompensatory, i.e. greater than predictedfor the change in body composition. To determine whether suchmetabolic adaptation occurs in response to spontaneous longterm weight change, we conducted a longitudinal study in which24-h energy expenditure (24-EE) and 24-h respiratory quotient(24-RQ; i.e. fat to carbohydrate oxidation) were repeatedlymeasured in 102 Pima Indians at baseline and after a mean follow-upof 3.6 ± 2.7 yr, during which changes in body weightvaried widely (-21 to +28 kg). We found that changes in 24-EEand 24-RQ in response to weight change were related to the amount ofweight change, even after adjustment for body composition (partial r= 0.23 and -0.30, respectively; both P < 0.05). For a 15-kgweight gain, the increases in 24-EE (+244 Cal/day) and 24-hfat oxidation (+152 Cal/day) were 33 and 53 Cal/day greater thanpredicted from the cross-sectional relationship between both measuresand body weight. Changes in 24-EE and 24-RQ varied substantiallyamong individuals. Thus, on the average, spontaneous long termweight changes are accompanied by small metabolic adaptationsin both energy expenditure and fat oxidation. The metabolicresponses to weight changes are highly variable among individuals,however.

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				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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