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Ketosis, the metabolic response to energy crisis, is a mechanism to sustain life by altering oxidative fuel selection. Often overlooked for its metabolic potential, ketosis is poorly understood outside of starvation or diabetic crisis. Thus, we studied the biochemical advantages of ketosis in humans using a ketone ester-based form of nutrition without the unwanted milieu of endogenous ketone body production by caloric or carbohydrate restriction. In five separate studies of 39 high-performance athletes, we show how this unique metabolic state improves physical endurance by altering fuel competition for oxidative respiration. Ketosis decreased muscle glycolysis and plasma lactate concentrations, while providing an alternative substrate for oxidative phosphorylation. Ketosis increased intramuscular triacylglycerol oxidation during exercise, even in the presence of normal muscle glycogen, co-ingested carbohydrate and elevated insulin. These findings may hold clues to greater human potential and a better understanding of fuel metabolism in health and disease.

Original publication

DOI

10.1016/j.cmet.2016.07.010

Type

Journal article

Journal

Cell Metab

Publication Date

09/08/2016

Volume

24

Pages

256 - 268

Keywords

Adiposity, Athletes, Carbohydrates, Carnitine, Diet, Energy Metabolism, Exercise, Female, Glycogen, Humans, Ketone Bodies, Ketosis, Male, Muscle, Skeletal, Physical Endurance, Rest