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Journal Article

Citation

Bloomfield PM, Green H, Fisher JP, Gant N. Eur. J. Appl. Physiol. 2023; ePub(ePub): ePub.

Copyright

(Copyright © 2023, Holtzbrinck Springer Nature Publishing Group)

DOI

10.1007/s00421-023-05151-1

PMID

36952086

Abstract

PURPOSE: We sought to determine the effect of acute severe hypoxia, with and without concurrent manipulation of carbon dioxide (CO(2)), on complex real-world psychomotor task performance.

METHODS: Twenty-one participants completed a 10-min simulated driving task while breathing room air (normoxia) or hypoxic air (P(ET)O(2) = 45 mmHg) under poikilocapnic, isocapnic, and hypercapnic conditions (P(ET)CO(2) = not manipulated, clamped at baseline, and clamped at baseline + 10 mmHg, respectively). Driving performance was assessed using a fixed-base motor vehicle simulator. Oxygenation in the frontal cortex was measured using functional near-infrared spectroscopy.

RESULTS: Speed limit exceedances were greater during the poikilocapnic than normoxic, hypercapnic, and isocapnic conditions (mean exceedances: 8, 4, 5, and 7, respectively; all p ≤ 0.05 vs poikilocapnic hypoxia). Vehicle speed was greater in the poikilocapnic than normoxic and hypercapnic conditions (mean difference: 0.35 km h(-1) and 0.67 km h(-1), respectively). All hypoxic conditions similarly decreased cerebral oxyhaemoglobin and increased deoxyhaemoglobin, compared to normoxic baseline, while total hemoglobin remained unchanged.

CONCLUSIONS: These findings demonstrate that supplemental CO(2) can confer a neuroprotective effect by offsetting impairments in complex psychomotor task performance evoked by severe poikilocapnic hypoxia; however, differences in performance are unlikely to be linked to measurable differences in cerebral oxygenation.


Language: en

Keywords

Carbon dioxide; Driving performance; Functional near-infrared spectroscopy; Hypoxia

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