Physiological and cognitive military related performances after 10-kilometer march

BackgroundPrior operational activities such as marching in diverse environments, with heavy backloads may cause early fatigue and reduce the unit’s readiness. The purpose of this preliminary study was to evaluate the effect of 10-kilometer (km) march on selected, military oriented, physiological and cognitive performances.Eight healthy young males (age 25 ± 3 years) performed a series of cognitive and physiological tests, first without any prior physiological strain and then after a 10 km march in comfort laboratory conditions (24°C, 50%RH) consisting a 5 km/h speed and 2-6% incline with backload weighing 30% of their body weight.ResultsWe found that the subjects’ time to exhaustion (TTE) after the march decreased by 27% with no changes in anaerobic performance. Cognitive performance showed a significant (20%) reduction in accuracy and a tendency to reduce reaction time after the march.ConclusionsWe conclude that a moderate-intensity march under relatively comfort environmental conditions may differently decrease selected military related physical and cognitive abilities. This phenomenon is probably associated with the type and intensity of the pre-mission physical activity and the magnitude of the associated mental fatigue. We suggest that quantifying these effects, as was presented in this preliminary study, by adopting this practical scientific approach would assist in preserving the soldiers’ performance and health during training and military operations.

[1]  T. Noakes,et al.  Time to move beyond a brainless exercise physiology: the evidence for complex regulation of human exercise performance. , 2011, Applied physiology, nutrition, and metabolism = Physiologie appliquee, nutrition et metabolisme.

[2]  M. Tamura,et al.  Detection of dynamic changes in cerebral oxygenation coupled to neuronal function during mental work in man , 1993, Neuroscience Letters.

[3]  J. L. Harrison,et al.  The Government Printing Office , 1968, American Journal of Pharmaceutical Education.

[4]  Ian Renshaw,et al.  Interactive Processes Link the Multiple Symptoms of Fatigue in Sport Competition , 2011, Sports medicine.

[5]  E. Ziemann,et al.  Aerobic and Anaerobic Changes with High-Intensity Interval Training in Active College-Aged Men , 2011, Journal of strength and conditioning research.

[6]  D. Hill,et al.  Effect of protocol on determination of velocity at VO2 max and on its time to exhaustion. , 1996, Archives of physiology and biochemistry.

[7]  T. Noakes,et al.  The development of peripheral fatigue and short‐term recovery during self‐paced high‐intensity exercise , 2013, The Journal of physiology.

[8]  W Riedel,et al.  Cognitive Performance after Strenuous Physical Exercise , 1996, Perceptual and motor skills.

[9]  A. Vanhatalo,et al.  Optimizing the "priming" effect: influence of prior exercise intensity and recovery duration on O2 uptake kinetics and severe-intensity exercise tolerance. , 2009, Journal of applied physiology.

[10]  M. Fitchett Predictability of VO2 max from submaximal cycle ergometer and bench stepping tests. , 1985, British journal of sports medicine.

[11]  Yoshiyuki Matsuura,et al.  Relationships of anaerobic threshold and onset of blood lactate accumulation with endurance performance , 2004, European Journal of Applied Physiology and Occupational Physiology.

[12]  Misha Pavel,et al.  Supporting Real-Time Cognitive State Classification on a Mobile Individual , 2007 .

[13]  L. Armstrong,et al.  Effect of chronic caffeine intake on choice reaction time, mood, and visual vigilance , 2005, Physiology & Behavior.

[14]  S. Levitus,et al.  US Government Printing Office , 1998 .

[15]  Bryan P. Coffey,et al.  A vigilance task sensitive to the effects of stimulants, hypnotics, and environmental stress: The Scanning Visual Vigilance Test , 1998 .

[16]  C J Gore,et al.  Effects of exercise intensity and duration on the excess post-exercise oxygen consumption , 2006, Journal of sports sciences.

[17]  Bradley C Nindl,et al.  Physical performance responses during 72 h of military operational stress. , 2002, Medicine and science in sports and exercise.