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Altitude Acclimatization Alleviates the Hypoxia-Induced Suppression of Exogenous Glucose Oxidation During Steady-State Aerobic Exercise. | LitMetric

AI Article Synopsis

  • This study explored the effects of high-altitude (HA) acclimatization on how the body uses glucose during aerobic exercise, comparing results from sea-level (SL) conditions, acute high altitude (AHA), and chronic high altitude (CHA) after 22 days of acclimatization.
  • Participants experienced a significant loss of body mass (about 7.9 kg) while in a controlled negative energy balance during acclimatization, resembling real-life conditions for lowlanders.
  • Findings showed that glucose oxidation was significantly lower during exercise at AHA compared to SL and CHA, indicating that while hypoxia at high altitude reduces glucose utilization during exercise, this effect improves after acclimatization and when energy balance is managed.

Article Abstract

This study investigated how high-altitude (HA, 4300 m) acclimatization affected exogenous glucose oxidation during aerobic exercise. Sea-level (SL) residents ( = 14 men) performed 80-min, metabolically matched exercise ( O ∼ 1.7 L/min) at SL and at HA < 5 h after arrival (acute HA, AHA) and following 22-d of HA acclimatization (chronic HA, CHA). During HA acclimatization, participants sustained a controlled negative energy balance (-40%) to simulate the "real world" conditions that lowlanders typically experience during HA sojourns. During exercise, participants consumed carbohydrate (CHO, = 8, 65.25 g fructose + 79.75 g glucose, 1.8 g carbohydrate/min) or placebo (PLA, = 6). Total carbohydrate oxidation was determined by indirect calorimetry and exogenous glucose oxidation by tracer technique with C. Participants lost ( ≤ 0.05, mean ± SD) 7.9 ± 1.9 kg body mass during the HA acclimatization and energy deficit period. In CHO, total exogenous glucose oxidized during the final 40 min of exercise was lower ( < 0.01) at AHA (7.4 ± 3.7 g) than SL (15.3 ± 2.2 g) and CHA (12.4 ± 2.3 g), but there were no differences between SL and CHA. Blood glucose and insulin increased ( ≤ 0.05) during the first 20 min of exercise in CHO, but not PLA. In CHO, glucose declined to pre-exercise concentrations as exercise continued at SL, but remained elevated ( ≤ 0.05) throughout exercise at AHA and CHA. Insulin increased during exercise in CHO, but the increase was greater ( ≤ 0.05) at AHA than at SL and CHA, which did not differ. Thus, while acute hypoxia suppressed exogenous glucose oxidation during steady-state aerobic exercise, that hypoxic suppression is alleviated following altitude acclimatization and concomitant negative energy balance.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6046468PMC
http://dx.doi.org/10.3389/fphys.2018.00830DOI Listing

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