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Journal Article

Citation

Freiberger JJ, Derrick B, Natoli MJ, Akushevich I, Schinazi EA, Parker C, Stolp BW, Bennett PB, Vann RD, Dunworth SA, Moon RE. J. Appl. Physiol. (APS Bethesda) 2016; 121(4): 953-964.

Affiliation

Duke University Medical Center.

Copyright

(Copyright © 2016, American Physiological Society)

DOI

10.1152/japplphysiol.00534.2016

PMID

27633739

Abstract

INTRODUCTION: Diving narcosis results from the complex interaction of gases, activities and environmental conditions. We hypothesized these interactions could be separated into their component parts. Where previous studies have tested single cognitive tasks sequentially, we varied inspired partial pressures of CO2, N2 and. O2 in immersed, exercising subjects while assessing multi-tasking performance with the MATB-II flight simulator.

METHODS: Cognitive performance was tested under 20 conditions of gas partial pressure and exercise in 42 male subjects meeting US Navy age and fitness profiles. Inspired nitrogen (N2) and oxygen (O2) partial pressures were 0, 4.5 and 5.6 ATA and 0.21, 1.0, and 1.22 ATA respectively, at rest and during 100 watt immersed exercise with and without 0.075 ATA CO2 Linear regression modeled the association of gas partial pressure on task performance while controlling for exercise, hypercapnic ventilatory response, dive training, video game frequency and age. Subjects served as their own controls.

RESULTS: Impairment of memory, attention, and planning, but not motor tasks, was associated with N2 partial pressures > 4.5 ATM. Sea-level O2 at 0.925 ATA partially rescued motor and memory reaction-time impaired by 0.075ATA CO2, however, at hyperbaric pressures an unexpectedly strong interaction between CO2, N2 and exercise caused incapacitating narcosis with amnesia, which was augmented by O2 Perception of narcosis was not correlated with actual scores.

CONCLUSIONS: The relative contributions of factors associated with diving narcosis will be useful to predict the effects of gas mixtures and exercise conditions on the cognitive performance of divers. The O2 effects are consistent with O2 narcosis or enhanced O2 toxicity.

Copyright © 2016, Journal of Applied Physiology.


Language: en

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