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Glutamine Supplementation Increases Postprandial Energy Expenditure and Fat Oxidation in Humans
Author(s) -
Iwashita Soh,
Mikus Catherine,
Baier Shawn,
Flakoll Paul J.
Publication year - 2006
Publication title -
journal of parenteral and enteral nutrition
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.935
H-Index - 98
eISSN - 1941-2444
pISSN - 0148-6071
DOI - 10.1177/014860710603000276
Subject(s) - postprandial , glutamine , respiratory quotient , carbohydrate , meal , chemistry , medicine , ingestion , zoology , calorimetry , specific dynamic action , endocrinology , food science , biochemistry , biology , insulin , amino acid , physics , thermodynamics
Background: Glutamine interacts with insulin‐mediated glucose disposal, which is a component of the increase in energy expenditure (EE) after a meal. The study aim was to examine if glutamine supplementation alters postmeal nutrient oxidation. Methods: Ten healthy young adults consumed a mixed meal (6.5 kcal/kg, 14%:22%:64% = protein:fat:carbohydrate) containing either glutamine (GLN:1.05 kcal/kg) or an isocaloric amino acid mixture (alanine: glycine:serine = 2:1:0.5; CON). GLN and CON treatments were administered on separate days in random order for each subject. EE, nonprotein respiratory quotient (RQ), and fat and carbohydrate oxidation rates were assessed using indirect calorimetry for 30 minutes before and for 360 minutes after meal ingestion. Results: Premeal EE and RQ were similar between treatments. The increase in EE above basal during both early (0–180 minutes) and late (180–360 minutes) postmeal phases was greater in GLN than in CON ( p < .05), resulting in postmeal EE being 49% greater during the total postmeal phase ( p < .05). Net change of carbohydrate oxidation was 38% higher during the early phase with GLN ( p < .05), whereas it was 71% lower during the later phase ( p < .05). GLN enhanced fat oxidation by ∼42 kcal compared with CON during the late phase ( p < .05). Conclusions: Glutamine supplementation with a mixed meal alters nutrient metabolism to increase postmeal EE by increasing carbohydrate oxidation during the early postmeal phase and fat oxidation during the late postmeal phase. Consideration must be given to the potential that these postprandial changes in EE are related to glutamine‐mediated changes in insulin action and consequently glucose disposal.

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