Katy Reynolds scite author profile

Thirty-five healthy men were matched and randomly assigned to one of four training groups that performed high-intensity strength and endurance training (C; n = 9), upper body only high-intensity strength and endurance training (UC; n = 9), high-intensity endurance training (E; n = 8), or high-intensity strength training (ST; n = 9). The C and ST groups significantly increased one-repetition maximum strength for all exercises (P < 0.05). Only the C, UC, and E groups demonstrated significant increases in treadmill maximal oxygen consumption. The ST group showed significant increases in power output. Hormonal responses to treadmill exercise demonstrated a differential response to the different training programs, indicating that the underlying physiological milieu differed with the training program. Significant changes in muscle fiber areas were as follows: types I, IIa, and IIc increased in the ST group; types I and IIc decreased in the E group; type IIa increased in the C group; and there were no changes in the UC group. Significant shifts in percentage from type IIb to type IIa were observed in all training groups, with the greatest shift in the groups in which resistance trained the thigh musculature. This investigation indicates that the combination of strength and endurance training results in an attenuation of the performance improvements and physiological adaptations typical of single-mode training.

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Soldier Load Carriage: Historical, Physiological, Biomechanical, and Medical Aspects

Knapik

2004

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This study reviews historical and biomedical aspects of soldier load carriage. Before the 18th century, foot soldiers seldom carried more than 15 kg while on the march, but loads have progressively risen since then. This load increase is presumably due to the weight of weapons and equipment that incorporate new technologies to increase protection, firepower, communications, and mobility. Research shows that locating the load center of mass as close as possible to the body center of mass results in the lowest energy cost and tends to keep the body in an upright position similar to unloaded walking. Loads carried on other parts of the body result in higher energy expenditures: each kilogram added to the foot increases energy expenditure 7% to 10%; each kilogram added to the thigh increases energy expenditure 4%. Hip belts on rucksacks should be used whenever possible as they reduce pressure on the shoulders and increase comfort. Low or mid-back load placement might be preferable on uneven terrain but high load placement may be best for even terrain. In some tactical situations, combat load carts can be used, and these can considerably reduce energy expenditure and improve performance. Physical training that includes aerobic exercise, resistance training targeted at specific muscle groups, and regular road marching can considerably improve road marching speed and efficiency. The energy cost of walking with backpack loads increases progressively with increases in weight carried, body mass, walking speed, or grade; type of terrain also influences energy cost. Predictive equations have been developed, but these may not be accurate for prolonged load carriage. Common injuries associated with prolonged load carriage include foot blisters, stress fractures, back strains, metatarsalgia, rucksack palsy, and knee pain. Load carriage can be facilitated by lightening loads, improving load distribution, optimizing load-carriage equipment, and taking preventive action to reduce the incidence of injury.

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Load carriage using packs: A review of physiological, biomechanical and medical aspects

1996

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Physical Fitness, Age, and Injury Incidence in Infantry Soldiers

Knapik¹,

Ang²,

Reynolds³

et al. 1993

Journal of Occupational and Environmental Medicine

149

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and in large heterogmore than one type of injury.). The proportion of soldiers injured decreased enous military units that contain as age increased. Slower 2-mile run times and fewer sit-ups were associated many occupational groups. '`-` Howwith a higher incidence of musculoskeletal injuries. This study documents ever, reliable information on injury the injury incidence in infantryi soldiers and identifies younger age and low incidence in specific military occupaphYsical fitness as potential risk.factors for these injuries.tions (e.g., infantry. artillery. or armor soldiers) is still lacking. It has been proposed that, in both civilian and military populations, the This document has been approved likelihood of activity-related injuries for public • elease and sale; its may be modified by a number of vari-

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Katy Reynolds

Compatibility of high-intensity strength and endurance training on hormonal and skeletal muscle adaptations

Soldier Load Carriage: Historical, Physiological, Biomechanical, and Medical Aspects

Load carriage using packs: A review of physiological, biomechanical and medical aspects

Physical Fitness, Age, and Injury Incidence in Infantry Soldiers

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