[HTML][HTML] Changes in energy expenditure resulting from altered body weight

RL Leibel, M Rosenbaum, J Hirsch - New England Journal of …, 1995 - Mass Medical Soc
RL Leibel, M Rosenbaum, J Hirsch
New England Journal of Medicine, 1995Mass Medical Soc
Background No current treatment for obesity reliably sustains weight loss, perhaps because
compensatory metabolic processes resist the maintenance of the altered body weight. We
examined the effects of experimental perturbations of body weight on energy expenditure to
determine whether they lead to metabolic changes and whether obese subjects and those
who have never been obese respond similarly. Methods We repeatedly measured 24-hour
total energy expenditure, resting and nonresting energy expenditure, and the thermic effect …
Background
No current treatment for obesity reliably sustains weight loss, perhaps because compensatory metabolic processes resist the maintenance of the altered body weight. We examined the effects of experimental perturbations of body weight on energy expenditure to determine whether they lead to metabolic changes and whether obese subjects and those who have never been obese respond similarly.
Methods
We repeatedly measured 24-hour total energy expenditure, resting and nonresting energy expenditure, and the thermic effect of feeding in 18 obese subjects and 23 subjects who had never been obese. The subjects were studied at their usual body weight and after losing 10 to 20 percent of their body weight by underfeeding or gaining 10 percent by overfeeding.
Results
Maintenance of a body weight at a level 10 percent or more below the initial weight was associated with a mean (±SD) reduction in total energy expenditure of 6±3 kcal per kilogram of fat-free mass per day in the subjects who had never been obese (P<0.001) and 8±5 kcal per kilogram per day in the obese subjects (P<0.001). Resting energy expenditure and nonresting energy expenditure each decreased 3 to 4 kcal per kilogram of fat-free mass per day in both groups of subjects. Maintenance of body weight at a level 10 percent above the usual weight was associated with an increase in total energy expenditure of 9±7 kcal per kilogram of fat-free mass per day in the subjects who had never been obese (P<0.001) and 8±4 kcal per kilogram per day in the obese subjects (P<0.001). The thermic effect of feeding and nonresting energy expenditure increased by approximately 1 to 2 and 8 to 9 kcal per kilogram of fat-free mass per day, respectively, after weight gain. These changes in energy expenditure were not related to the degree of adiposity or the sex of the subjects.
Conclusions
Maintenance of a reduced or elevated body weight is associated with compensatory changes in energy expenditure, which oppose the maintenance of a body weight that is different from the usual weight. These compensatory changes may account for the poor long-term efficacy of treatments for obesity.
The New England Journal Of Medicine