The effect of high-altitude on human skeletal muscle energetics: P-MRS results from the Caudwell Xtreme Everest expedition.

The effect of high-altitude on human skeletal muscle energetics: P-MRS results from the Caudwell Xtreme Everest expedition.

Many disease states are associated with regional or systemic hypoxia. The study of healthy individuals exposed to high-altitude hypoxia offers a way to explore hypoxic adaptation without the confounding effects of disease and therapeutic interventions. Using (31)P magnetic resonance spectroscopy and...

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Main Authors: Lindsay M Edwards, Andrew J Murray, Damian J Tyler, Graham J Kemp, Cameron J Holloway, Peter A Robbins, Stefan Neubauer, Denny Levett, Hugh E Montgomery, Mike P Grocott, Kieran Clarke, Caudwell Xtreme Everest Research Group
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2010-05-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC2873292?pdf=render
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spelling doaj-fb77187744e94328895dd9984084fc442020-11-25T01:01:39ZengPublic Library of Science (PLoS)PLoS ONE1932-62032010-05-0155e1068110.1371/journal.pone.0010681The effect of high-altitude on human skeletal muscle energetics: P-MRS results from the Caudwell Xtreme Everest expedition.Lindsay M EdwardsAndrew J MurrayDamian J TylerGraham J KempCameron J HollowayPeter A RobbinsStefan NeubauerDenny LevettHugh E MontgomeryMike P GrocottKieran ClarkeCaudwell Xtreme Everest Research GroupMany disease states are associated with regional or systemic hypoxia. The study of healthy individuals exposed to high-altitude hypoxia offers a way to explore hypoxic adaptation without the confounding effects of disease and therapeutic interventions. Using (31)P magnetic resonance spectroscopy and imaging, we investigated skeletal muscle energetics and morphology after exposure to hypobaric hypoxia in seven altitude-naïve subjects (trekkers) and seven experienced climbers. The trekkers ascended to 5300 m while the climbers ascended above 7950 m. Before the study, climbers had better mitochondrial function (evidenced by shorter phosphocreatine recovery halftime) than trekkers: 16+/-1 vs. 22+/-2 s (mean +/- SE, p<0.01). Climbers had higher resting [Pi] than trekkers before the expedition and resting [Pi] was raised across both groups on their return (PRE: 2.6+/-0.2 vs. POST: 3.0+/-0.2 mM, p<0.05). There was significant muscle atrophy post-CXE (PRE: 4.7+/-0.2 vs. POST: 4.5+/-0.2 cm(2), p<0.05), yet exercising metabolites were unchanged. These results suggest that, in response to high altitude hypoxia, skeletal muscle function is maintained in humans, despite significant atrophy.http://europepmc.org/articles/PMC2873292?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Lindsay M Edwards
Andrew J Murray
Damian J Tyler
Graham J Kemp
Cameron J Holloway
Peter A Robbins
Stefan Neubauer
Denny Levett
Hugh E Montgomery
Mike P Grocott
Kieran Clarke
Caudwell Xtreme Everest Research Group
spellingShingle Lindsay M Edwards
Andrew J Murray
Damian J Tyler
Graham J Kemp
Cameron J Holloway
Peter A Robbins
Stefan Neubauer
Denny Levett
Hugh E Montgomery
Mike P Grocott
Kieran Clarke
Caudwell Xtreme Everest Research Group
The effect of high-altitude on human skeletal muscle energetics: P-MRS results from the Caudwell Xtreme Everest expedition.
PLoS ONE
author_facet Lindsay M Edwards
Andrew J Murray
Damian J Tyler
Graham J Kemp
Cameron J Holloway
Peter A Robbins
Stefan Neubauer
Denny Levett
Hugh E Montgomery
Mike P Grocott
Kieran Clarke
Caudwell Xtreme Everest Research Group
author_sort Lindsay M Edwards
title The effect of high-altitude on human skeletal muscle energetics: P-MRS results from the Caudwell Xtreme Everest expedition.
title_short The effect of high-altitude on human skeletal muscle energetics: P-MRS results from the Caudwell Xtreme Everest expedition.
title_full The effect of high-altitude on human skeletal muscle energetics: P-MRS results from the Caudwell Xtreme Everest expedition.
title_fullStr The effect of high-altitude on human skeletal muscle energetics: P-MRS results from the Caudwell Xtreme Everest expedition.
title_full_unstemmed The effect of high-altitude on human skeletal muscle energetics: P-MRS results from the Caudwell Xtreme Everest expedition.
title_sort effect of high-altitude on human skeletal muscle energetics: p-mrs results from the caudwell xtreme everest expedition.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2010-05-01
description Many disease states are associated with regional or systemic hypoxia. The study of healthy individuals exposed to high-altitude hypoxia offers a way to explore hypoxic adaptation without the confounding effects of disease and therapeutic interventions. Using (31)P magnetic resonance spectroscopy and imaging, we investigated skeletal muscle energetics and morphology after exposure to hypobaric hypoxia in seven altitude-naïve subjects (trekkers) and seven experienced climbers. The trekkers ascended to 5300 m while the climbers ascended above 7950 m. Before the study, climbers had better mitochondrial function (evidenced by shorter phosphocreatine recovery halftime) than trekkers: 16+/-1 vs. 22+/-2 s (mean +/- SE, p<0.01). Climbers had higher resting [Pi] than trekkers before the expedition and resting [Pi] was raised across both groups on their return (PRE: 2.6+/-0.2 vs. POST: 3.0+/-0.2 mM, p<0.05). There was significant muscle atrophy post-CXE (PRE: 4.7+/-0.2 vs. POST: 4.5+/-0.2 cm(2), p<0.05), yet exercising metabolites were unchanged. These results suggest that, in response to high altitude hypoxia, skeletal muscle function is maintained in humans, despite significant atrophy.
url http://europepmc.org/articles/PMC2873292?pdf=render
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