Effects of energy loads on energy and nutrient absorption rates and gut microbiome in humans: A randomized crossover trial

Abstract

AbstractObjectiveThis study aimed to determine the effects of different energy loads on the gut microbiota composition and the rates of energy and nutrient excretion via feces and urine.MethodsA randomized crossover dietary intervention study was conducted with three dietary conditions: overfeeding (OF), control (CON), and underfeeding (UF). Ten healthy men were subjected to each condition for 8 days (4 days and 3 nights in nonlaboratory and laboratory settings each). The effects of dietary conditions on energy excretion rates via feces and urine were assessed using a bomb calorimeter.ResultsShort‐term energy loads dynamically altered the gut microbiota at the α‐diversity (Shannon index), phylum, and genus levels (p < 0.05). Energy excretion rates via urine and urine plus feces decreased under OF more than under CON (urine −0.7%; p < 0.001, urine plus feces −1.9%; p = 0.049) and UF (urine −1.0%; p < 0.001, urine plus feces −2.1%; p = 0.031). However, energy excretion rates via feces did not differ between conditions.ConclusionsAlthough short‐term overfeeding dynamically altered the gut microbiota composition, the energy excretion rate via feces was unaffected. Energy excretion rates via urine and urine plus feces were lower under OF than under CON and UF conditions.