Dataset for: Human physiological and metabolic responses to an attempted winter crossing of Antarctica: the effects of prolonged hypobaric hypoxia. ...
An insufficient supply of oxygen to the tissues (hypoxia), as is experienced upon high altitude exposure, elicits physiological acclimatisation mechanisms alongside metabolic remodelling. Details of the integrative adaptive processes in response to chronic hypobaric hypoxic exposure remain to be suf...
Main Authors: | , , , , , , , , , , |
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Format: | Article in Journal/Newspaper |
Language: | unknown |
Published: |
Wiley
2018
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Subjects: | |
Online Access: | https://dx.doi.org/10.6084/m9.figshare.c.3986340 https://wiley.figshare.com/collections/Dataset_for_Human_physiological_and_metabolic_responses_to_an_attempted_winter_crossing_of_Antarctica_the_effects_of_prolonged_hypobaric_hypoxia_/3986340 |
Summary: | An insufficient supply of oxygen to the tissues (hypoxia), as is experienced upon high altitude exposure, elicits physiological acclimatisation mechanisms alongside metabolic remodelling. Details of the integrative adaptive processes in response to chronic hypobaric hypoxic exposure remain to be sufficiently investigated. In this small applied field study, subjects (n=5, male, age 28-54 yrs) undertook a 40 week Antarctica expedition in the winter months, which included 24 weeks residing above 2500m. Measurements taken pre and post expedition revealed alterations to glucose and fatty acid resonances within the serum metabolic profile, a 7.8 (+ 3.6) % increase in respiratory exchange ratio measured during incremental exercise (area under curve, p>0.01, mean ±SD) and a 2.1(+ 0.8) % decrease in fat tissue (p<0.05) post expedition. This was accompanied by an 11.6 (+1.9) % increase (p>0.001) in VO2 max corrected to % lean mass post expedition. In addition, spine bone mineral density and lung function ... |
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