Many reports describe the difficulty for anorexia nervosa patients to gain weight during refeeding. To assess whether an increase in diet-induced thermogenesis (DIT) participates to this resistance, we studied DIT by indirect calorimetry in 11 severely malnourished anorexia nervosa patients [body mass index (BMI; in kg/m2) = 13] to accomplish two purposes: 1) to compare DIT in a strict semistarvation state with that obtained after 1 wk refeeding, when metabolism is shifted to a dynamic trend toward regaining weight, without significant change in body composition; 2) to study the effect on DIT of two energetic loads representing each one-third of the energy intake during semistarvation and refeeding, respectively: 1.25 and 2.92 MJ. To avoid bias, the two liquid loads were infused intragastrically in a random double-blind fashion. A significant increase in DIT during refeeding was observed for the two loads (204 +/- 23 kJ for the 1.25-MJ liquid meal and 482 +/- 78 kJ for the 2.92-MJ one, P < 0.02). The higher the load, the larger the increase with refeeding (P < 0.001). This increment in DIT exceeded the increase in active lean body mass and was poorly correlated with lean body mass. These results provide clear evidence of a strong cellular "waste" mechanism in anorexia nervosa patients during the early phase of refeeding, which enhances the adaptative resistance to overfeeding that we have already shown for resting energy expenditure.