A comparison of substrate oxidation during prolonged exercise in men at terrestrial altitude and normobaric normoxia following the coingestion of (13)C glucose and (13)C fructose

This study compared the effects of coingesting glucose and fructose on exogenous and endogenous substrate oxidation during prolonged exercise at altitude and sea level, in men. Seven male British military personnel completed two bouts of cycling at the same relative workload (55% W (max)) for 120 mi...

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Autores principales: O'Hara, John P., Woods, David R., Mellor, Adrian, Boos, Christopher, Gallagher, Liam, Tsakirides, Costas, Arjomandkhah, Nicola C., Holdsworth, David A., Cooke, Carlton B., Morrison, Douglas J., Preston, Thomas, King, Roderick FGJ
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2017
Materias:
Original Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5256160/
https://www.ncbi.nlm.nih.gov/pubmed/28082428
http://dx.doi.org/10.14814/phy2.13101
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author O'Hara, John P.
Woods, David R.
Mellor, Adrian
Boos, Christopher
Gallagher, Liam
Tsakirides, Costas
Arjomandkhah, Nicola C.
Holdsworth, David A.
Cooke, Carlton B.
Morrison, Douglas J.
Preston, Thomas
King, Roderick FGJ
author_facet O'Hara, John P.
Woods, David R.
Mellor, Adrian
Boos, Christopher
Gallagher, Liam
Tsakirides, Costas
Arjomandkhah, Nicola C.
Holdsworth, David A.
Cooke, Carlton B.
Morrison, Douglas J.
Preston, Thomas
King, Roderick FGJ
author_sort O'Hara, John P.
collection PubMed
description This study compared the effects of coingesting glucose and fructose on exogenous and endogenous substrate oxidation during prolonged exercise at altitude and sea level, in men. Seven male British military personnel completed two bouts of cycling at the same relative workload (55% W (max)) for 120 min on acute exposure to altitude (3375 m) and at sea level (~113 m). In each trial, participants ingested 1.2 g·min(−1) of glucose (enriched with (13)C glucose) and 0.6 g·min(−1) of fructose (enriched with (13)C fructose) directly before and every 15 min during exercise. Indirect calorimetry and isotope ratio mass spectrometry were used to calculate fat oxidation, total and exogenous carbohydrate oxidation, plasma glucose oxidation, and endogenous glucose oxidation derived from liver and muscle glycogen. Total carbohydrate oxidation during the exercise period was lower at altitude (157.7 ± 56.3 g) than sea level (286.5 ± 56.2 g, P = 0.006, ES = 2.28), whereas fat oxidation was higher at altitude (75.5 ± 26.8 g) than sea level (42.5 ± 21.3 g, P = 0.024, ES = 1.23). Peak exogenous carbohydrate oxidation was lower at altitude (1.13 ± 0.2 g·min(−1)) than sea level (1.42 ± 0.16 g·min(−1), P = 0.034, ES = 1.33). There were no differences in rates, or absolute and relative contributions of plasma or liver glucose oxidation between conditions during the second hour of exercise. However, absolute and relative contributions of muscle glycogen during the second hour were lower at altitude (29.3 ± 28.9 g, 16.6 ± 15.2%) than sea level (78.7 ± 5.2 g (P = 0.008, ES = 1.71), 37.7 ± 13.0% (P = 0.016, ES = 1.45). Acute exposure to altitude reduces the reliance on muscle glycogen and increases fat oxidation during prolonged cycling in men compared with sea level.
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spelling pubmed-52561602017-01-26 A comparison of substrate oxidation during prolonged exercise in men at terrestrial altitude and normobaric normoxia following the coingestion of (13)C glucose and (13)C fructose O'Hara, John P. Woods, David R. Mellor, Adrian Boos, Christopher Gallagher, Liam Tsakirides, Costas Arjomandkhah, Nicola C. Holdsworth, David A. Cooke, Carlton B. Morrison, Douglas J. Preston, Thomas King, Roderick FGJ Physiol Rep Original Research This study compared the effects of coingesting glucose and fructose on exogenous and endogenous substrate oxidation during prolonged exercise at altitude and sea level, in men. Seven male British military personnel completed two bouts of cycling at the same relative workload (55% W (max)) for 120 min on acute exposure to altitude (3375 m) and at sea level (~113 m). In each trial, participants ingested 1.2 g·min(−1) of glucose (enriched with (13)C glucose) and 0.6 g·min(−1) of fructose (enriched with (13)C fructose) directly before and every 15 min during exercise. Indirect calorimetry and isotope ratio mass spectrometry were used to calculate fat oxidation, total and exogenous carbohydrate oxidation, plasma glucose oxidation, and endogenous glucose oxidation derived from liver and muscle glycogen. Total carbohydrate oxidation during the exercise period was lower at altitude (157.7 ± 56.3 g) than sea level (286.5 ± 56.2 g, P = 0.006, ES = 2.28), whereas fat oxidation was higher at altitude (75.5 ± 26.8 g) than sea level (42.5 ± 21.3 g, P = 0.024, ES = 1.23). Peak exogenous carbohydrate oxidation was lower at altitude (1.13 ± 0.2 g·min(−1)) than sea level (1.42 ± 0.16 g·min(−1), P = 0.034, ES = 1.33). There were no differences in rates, or absolute and relative contributions of plasma or liver glucose oxidation between conditions during the second hour of exercise. However, absolute and relative contributions of muscle glycogen during the second hour were lower at altitude (29.3 ± 28.9 g, 16.6 ± 15.2%) than sea level (78.7 ± 5.2 g (P = 0.008, ES = 1.71), 37.7 ± 13.0% (P = 0.016, ES = 1.45). Acute exposure to altitude reduces the reliance on muscle glycogen and increases fat oxidation during prolonged cycling in men compared with sea level. John Wiley and Sons Inc. 2017-01-13 /pmc/articles/PMC5256160/ /pubmed/28082428 http://dx.doi.org/10.14814/phy2.13101 Text en © 2017 The Authors. Physiological Reports published by Wiley Periodicals, Inc. on behalf of The Physiological Society and the American Physiological Society. This is an open access article under the terms of the Creative Commons Attribution (http://creativecommons.org/licenses/by/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Research
O'Hara, John P.
Woods, David R.
Mellor, Adrian
Boos, Christopher
Gallagher, Liam
Tsakirides, Costas
Arjomandkhah, Nicola C.
Holdsworth, David A.
Cooke, Carlton B.
Morrison, Douglas J.
Preston, Thomas
King, Roderick FGJ
A comparison of substrate oxidation during prolonged exercise in men at terrestrial altitude and normobaric normoxia following the coingestion of (13)C glucose and (13)C fructose
title A comparison of substrate oxidation during prolonged exercise in men at terrestrial altitude and normobaric normoxia following the coingestion of (13)C glucose and (13)C fructose
title_full A comparison of substrate oxidation during prolonged exercise in men at terrestrial altitude and normobaric normoxia following the coingestion of (13)C glucose and (13)C fructose
title_fullStr A comparison of substrate oxidation during prolonged exercise in men at terrestrial altitude and normobaric normoxia following the coingestion of (13)C glucose and (13)C fructose
title_full_unstemmed A comparison of substrate oxidation during prolonged exercise in men at terrestrial altitude and normobaric normoxia following the coingestion of (13)C glucose and (13)C fructose
title_short A comparison of substrate oxidation during prolonged exercise in men at terrestrial altitude and normobaric normoxia following the coingestion of (13)C glucose and (13)C fructose
title_sort comparison of substrate oxidation during prolonged exercise in men at terrestrial altitude and normobaric normoxia following the coingestion of (13)c glucose and (13)c fructose
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5256160/
https://www.ncbi.nlm.nih.gov/pubmed/28082428
http://dx.doi.org/10.14814/phy2.13101
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