Pilot physiology, cognition and flight performance during flight simulation exposed to a 3810-m hypoxic condition

Corey A. Peacock; Raymond Weber; Gabriel J. Sanders; Yongsuk Seo; David Kean; Brandon S. Pollock; Keith J. Burns; Mark Cain; Phillip LaScola; Ellen L. Glickman

doi:10.1080/10803548.2016.1234685

Pilot physiology, cognition and flight performance during flight simulation exposed to a 3810-m hypoxic condition

Corey A. Peacock
, Raymond Weber
, Gabriel J. Sanders
, Yongsuk Seo
, David Kean
, Brandon S. Pollock
, Keith J. Burns
, Mark Cain
, Phillip LaScola
, Ellen L. Glickman

Research output: Contribution to journal › Article › peer-review

Abstract

Background. Hypoxia is a physiological state defined as a reduction in the distribution of oxygen to the tissues of the body. It has been considered a major factor in aviation safety worldwide because of its potential for pilot disorientation. Pilots are able to operate aircrafts up to 3810 m without the use of supplemental oxygen and may exhibit symptoms associated with hypoxia. Objective. To determine the effects of 3810 m on physiology, cognition and performance in pilots during a flight simulation. Methods. Ten healthy male pilots engaged in a counterbalanced experimental protocol comparing a 0-m normoxic condition (NORM) with a 3810-m hypoxic condition (HYP) on pilot physiology, cognition and flight performance. Results. Repeated-measures analysis of variance demonstrated a significant (p ≤ 0.05) time by condition interaction for physiological and cognitive alterations during HYP. A paired-samples t test demonstrated no differences in pilot performance (p ≥ 0.05) between conditions. Conclusion. Pilots exhibited physiological and cognitive impairments; however, pilot performance was not affected by HYP.

Original language	English
Pages (from-to)	44-49
Number of pages	6
Journal	International Journal of Occupational Safety and Ergonomics
Volume	23
Issue number	1
DOIs	https://doi.org/10.1080/10803548.2016.1234685
State	Published - Jan 2 2017

Bibliographical note

Publisher Copyright:
© 2016 Central Institute for Labour Protection–National Research Institute (CIOP-PIB).

ASJC Scopus Subject Areas

Safety, Risk, Reliability and Quality
Safety Research
Public Health, Environmental and Occupational Health

Keywords

flight simulation
hypoxia
physiology

Access to Document

10.1080/10803548.2016.1234685

Cite this

Peacock, C. A., Weber, R., Sanders, G. J., Seo, Y., Kean, D., Pollock, B. S., Burns, K. J., Cain, M., LaScola, P., & Glickman, E. L. (2017). Pilot physiology, cognition and flight performance during flight simulation exposed to a 3810-m hypoxic condition. International Journal of Occupational Safety and Ergonomics, 23(1), 44-49. https://doi.org/10.1080/10803548.2016.1234685

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title = "Pilot physiology, cognition and flight performance during flight simulation exposed to a 3810-m hypoxic condition",

abstract = "Background. Hypoxia is a physiological state defined as a reduction in the distribution of oxygen to the tissues of the body. It has been considered a major factor in aviation safety worldwide because of its potential for pilot disorientation. Pilots are able to operate aircrafts up to 3810 m without the use of supplemental oxygen and may exhibit symptoms associated with hypoxia. Objective. To determine the effects of 3810 m on physiology, cognition and performance in pilots during a flight simulation. Methods. Ten healthy male pilots engaged in a counterbalanced experimental protocol comparing a 0-m normoxic condition (NORM) with a 3810-m hypoxic condition (HYP) on pilot physiology, cognition and flight performance. Results. Repeated-measures analysis of variance demonstrated a significant (p ≤ 0.05) time by condition interaction for physiological and cognitive alterations during HYP. A paired-samples t test demonstrated no differences in pilot performance (p ≥ 0.05) between conditions. Conclusion. Pilots exhibited physiological and cognitive impairments; however, pilot performance was not affected by HYP.",

keywords = "flight simulation, hypoxia, physiology",

author = "Peacock, \{Corey A.\} and Raymond Weber and Sanders, \{Gabriel J.\} and Yongsuk Seo and David Kean and Pollock, \{Brandon S.\} and Burns, \{Keith J.\} and Mark Cain and Phillip LaScola and Glickman, \{Ellen L.\}",

note = "Publisher Copyright: {\textcopyright} 2016 Central Institute for Labour Protection–National Research Institute (CIOP-PIB).",

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doi = "10.1080/10803548.2016.1234685",

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AU - Weber, Raymond

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AU - Kean, David

AU - Pollock, Brandon S.

AU - Burns, Keith J.

AU - Cain, Mark

AU - LaScola, Phillip

AU - Glickman, Ellen L.

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N2 - Background. Hypoxia is a physiological state defined as a reduction in the distribution of oxygen to the tissues of the body. It has been considered a major factor in aviation safety worldwide because of its potential for pilot disorientation. Pilots are able to operate aircrafts up to 3810 m without the use of supplemental oxygen and may exhibit symptoms associated with hypoxia. Objective. To determine the effects of 3810 m on physiology, cognition and performance in pilots during a flight simulation. Methods. Ten healthy male pilots engaged in a counterbalanced experimental protocol comparing a 0-m normoxic condition (NORM) with a 3810-m hypoxic condition (HYP) on pilot physiology, cognition and flight performance. Results. Repeated-measures analysis of variance demonstrated a significant (p ≤ 0.05) time by condition interaction for physiological and cognitive alterations during HYP. A paired-samples t test demonstrated no differences in pilot performance (p ≥ 0.05) between conditions. Conclusion. Pilots exhibited physiological and cognitive impairments; however, pilot performance was not affected by HYP.

AB - Background. Hypoxia is a physiological state defined as a reduction in the distribution of oxygen to the tissues of the body. It has been considered a major factor in aviation safety worldwide because of its potential for pilot disorientation. Pilots are able to operate aircrafts up to 3810 m without the use of supplemental oxygen and may exhibit symptoms associated with hypoxia. Objective. To determine the effects of 3810 m on physiology, cognition and performance in pilots during a flight simulation. Methods. Ten healthy male pilots engaged in a counterbalanced experimental protocol comparing a 0-m normoxic condition (NORM) with a 3810-m hypoxic condition (HYP) on pilot physiology, cognition and flight performance. Results. Repeated-measures analysis of variance demonstrated a significant (p ≤ 0.05) time by condition interaction for physiological and cognitive alterations during HYP. A paired-samples t test demonstrated no differences in pilot performance (p ≥ 0.05) between conditions. Conclusion. Pilots exhibited physiological and cognitive impairments; however, pilot performance was not affected by HYP.

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Pilot physiology, cognition and flight performance during flight simulation exposed to a 3810-m hypoxic condition

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

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