NTL Record

Title The effects of physical fatigue and altitude on physiological, biochemical, and performance responses.
Record ID 39427
Personal Name
Creator
Higgins, E. Arnold; Mertens, Henry W.; McKenzie, Jess M.; Funkhouser, Gordon E.; White, Mary Ann; Milburn, Nelda J.
Corporate Creator Civil Aeromedical Institute
Corporate
Contributor
United States. Office of Aviation Medicine
Publisher Civil Aerospace Medical Institute
Publication Date 19820500
Language English
Abstract Twelve healthy young men were evaluated in each of four experimental conditions involving the possible combinations of two exercise conditions given prior to performance testing (1 h of heavy exercise vs. no exercise) and two altitude conditions (ground level vs. 12,500 ft) which were administered during performance testing. Performance was measured during a 2 1/4-h test session with the Multiple Task Performance Battery (MTBP) which involved time-shared performance in monitoring of warning lights and meters, mental arithmetic, problem solving, and tracking. Heart rate was statistically higher after exercise than after no exercise and statistically higher at 12,500 ft than at ground level. Norepinephrine excretion was higher during exercise experiments than during no-exercise experiments. There was no altitude effect for this measurement. The overall composite score of MTPB performance was significantly lower at 12,500 ft than at ground level. The adverse effect of higher altitude was greatest in the tracking task. The 1-h period of vigorous physical exercise had no statistically significant main effect on overall MTPB scores. Residual effects of exercise resulting in increased arousal may account for the tendency for performance to be slightly higher in the case of problem solving. The interaction of altitude with exercise was also significant in the case of tracking performance. The most important aspect of the interaction was that tracking performance was significantly better at 12,500 ft following exercise. This finding is possibly due to the increase in cardiovascular circulation induced by prior exercise and exercise "breaks" should be examined in future research.
Rosap ID dot:21211
Rosap URL https://rosap.ntl.bts.gov/view/dot/21211
TRT Terms Performance tests; Hypoxia; Physiological fatigue; Physiology; Biochemistry; Simulation; Altitude; Heart rate; Physical fitness; Experiments; Human subject testing; Urinalysis; Amines
General Subjects Air pilots--Effect of altitude on; Fatigue; Cerebral anoxia; Performance--Testing; Physiology; Biochemistry; Physical fitness--Testing; Heart beat; Urine--Analysis; Catecholamines; Adrenaline; Noradrenaline
Classification NTL - AVIATION - Aviation Energy and Environment;
NTL - AVIATION - Aviation Human Factors
Geographical
Coverage
United States
Report Number FAA-AM-82-10; DOT/FAA/AM-82/10
Resource type Tech Report
URL https://ntlrepository.blob.core.windows.net/lib/39000/39400/39427/AM82-10.pdf
Format PDF
Database NTL Digital Repository