Prediction of simulated battlefield physical performance from field-expedient tests.

Predictive models of battlefield physical performance can benefit the military. To develop models, 32 physically trained men (mean +/- SD: 28.0 +/- 4.7 years, 82.1 +/- 11.3 kg, 176.3 +/- 7.5 cm) underwent (1) anthropometric measures: height and body mass; (2) fitness tests: push-ups, sit-ups, 3.2-km run, vertical jump, horizontal jump; (3) simulated battlefield physical performance in fighting load: five 30-m sprints prone to prone, 400-m run, obstacle course, and casualty recovery. Although greater body mass was positively associated with better casualty recovery performance, it showed trends toward poorer performance on all the other fitness and military performance tests. Regression equations well predicted the simulated battlefield performance from the anthropometric measures and physical fitness tests (r = 0.77-0.82). The vertical jump entered all four prediction equations and the horizontal jump entered one of them. The equations, using input from easy to administer tests, effectively predict simulated battlefield physical performance.

[1]  S Jaric,et al.  Effects of plyometric training on jumping performance in junior basketball players. , 2001, The Journal of sports medicine and physical fitness.

[2]  P. Vanderburgh,et al.  Body mass penalties in the physical fitness tests of the Army, Air Force, and Navy. , 2006, Military medicine.

[3]  Alun G. Williams,et al.  Can simple anthropometric and physical performance tests track training-induced changes in load-carriage ability? , 2006, Military medicine.

[4]  M P Rayson,et al.  Can simple anthropometric and physical performance tests track training-induced changes in maximal box-lifting ability? , 2006, Ergonomics.

[5]  M Rayson,et al.  Development of physical selection procedures for the British Army. Phase 2: Relationship between physical performance tests and criterion tasks , 2000, Ergonomics.

[6]  Bradley C Nindl,et al.  Correlates of load carriage and obstacle course performance among women. , 2002, Work.

[7]  M Jetté,et al.  Evaluating the occupational physical fitness of Canadian forces infantry personnel. , 1989, Military medicine.

[8]  P A Bishop,et al.  Physiological determinants of performance on an indoor military obstacle course test. , 1999, Military medicine.

[9]  P. Åstrand,et al.  Textbook of Work Physiology , 1970 .

[10]  Joseph J. Knapik,et al.  Physiological factors in stretcher carriage performance , 1999, European Journal of Applied Physiology and Occupational Physiology.

[11]  Martha L Teplitzky Physical Performance Predictors of Success in Special Forces Assessment and Selection , 1991 .

[12]  W. K. Prusaczyk,et al.  Physical Fitness Requirements for Explosive Ordnance Disposal Divers , 1998 .