Blood glucose concentration is unchanged during exposure to acute normobaric hypoxia in healthy humans

Jason S. Chan; Alexandra E. Chiew; Alexander N. Rimke; Garrick Chan; Zahrah H. Rampuri; Mackenzie D. Kozak; Normand G. Boulé; Craig D. Steinback; Margie H. Davenport; Trevor A. Day

doi:10.14814/phy2.14932

Physiological Reports (Aug 2021)

Blood glucose concentration is unchanged during exposure to acute normobaric hypoxia in healthy humans

Jason S. Chan,
Alexandra E. Chiew,
Alexander N. Rimke,
Garrick Chan,
Zahrah H. Rampuri,
Mackenzie D. Kozak,
Normand G. Boulé,
Craig D. Steinback,
Margie H. Davenport,
Trevor A. Day

Affiliations

Jason S. Chan: Department of Biology Faculty of Science and Technology Mount Royal University Calgary AB Canada
Alexandra E. Chiew: Department of Biology Faculty of Science and Technology Mount Royal University Calgary AB Canada
Alexander N. Rimke: Department of Biology Faculty of Science and Technology Mount Royal University Calgary AB Canada
Garrick Chan: Department of Biology Faculty of Science and Technology Mount Royal University Calgary AB Canada
Zahrah H. Rampuri: Department of Biology Faculty of Science and Technology Mount Royal University Calgary AB Canada
Mackenzie D. Kozak: Department of Biology Faculty of Science and Technology Mount Royal University Calgary AB Canada
Normand G. Boulé: Alberta Diabetes Institute Faculty of Kinesiology, Sport, and Recreation University of Alberta Edmonton AB Canada
Craig D. Steinback: Alberta Diabetes Institute Faculty of Kinesiology, Sport, and Recreation University of Alberta Edmonton AB Canada
Margie H. Davenport: Alberta Diabetes Institute Faculty of Kinesiology, Sport, and Recreation University of Alberta Edmonton AB Canada
Trevor A. Day: Department of Biology Faculty of Science and Technology Mount Royal University Calgary AB Canada

DOI: https://doi.org/10.14814/phy2.14932
Journal volume & issue: Vol. 9, no. 15
pp. n/a – n/a

Abstract

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Abstract Normal blood [glucose] regulation is critical to support metabolism, particularly in contexts of metabolic stressors (e.g., exercise, high altitude hypoxia). Data regarding blood [glucose] regulation in hypoxia are inconclusive. We aimed to characterize blood [glucose] over 80 min following glucose ingestion during both normoxia and acute normobaric hypoxia. In a randomized cross‐over design, on two separate days, 28 healthy participants (16 females; 21.8 ± 1.6 years; BMI 22.8 ± 2.5 kg/m2) were randomly exposed to either NX (room air; fraction of inspired [FI]O2 ~0.21) or HX (FIO2 ~0.148) in a normobaric hypoxia chamber. Measured FIO2 and peripheral oxygen saturation were both lower at baseline in hypoxia (p 0.77). In addition, mean, peak, and time‐to‐peak responses during the 80 min were not different between conditions (p > 0.14). There were also no sex differences in these blood [glucose] responses in hypoxia. We conclude that glucose regulation is unchanged in young, healthy participants with exposure to acute steady‐state normobaric hypoxia, likely due to counterbalancing mechanisms underlying blood [glucose] regulation in hypoxia.

Published in Physiological Reports

ISSN: 2051-817X (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physiology
Website: https://physoc.onlinelibrary.wiley.com/journal/2051817x

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