The Effects of Military Body Armor on Isometric and Isokinetic Knee Behaviors

M. Phillips, C. Starnes, R. Shapiro, B. Bazrgari
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Abstract

OCCUPATIONAL APPLICATIONS Despite the proven effectiveness of new-generation body armor against ballistic threats, small arms, and improvised explosive devices, such body armor has become a source of concern for warfighters' performance and musculoskeletal injuries. Prolonged periods of performing physical activities, with versus without body armor, were found to alter knee neuromuscular behavior. With body armor, the maximum strength of the knee flexors and the extensor-to-flexor strength ratio were found, respectively, to reduce and increase than in conditions without body armor. Such changes in knee neuromuscular behavior are known to adversely affect physical performance and risk of knee injury. Quantitative information related to changes in knee neuromuscular behavior induced by body armor can be used in the design of injury risk assessment tools, physical training programs that decrease or correct a particular imbalance, and to establish return to service (i.e., post injury) standards for dismounted warfighters. TECHNICAL ABSTRACT Background: Knee injuries among military service members have a substantially high prevalence. Dismounted warfighters often must navigate diverse environments while wearing body armor. Purpose: Given the suggested role of body armor mass on a warfighter's performance and risk of injury, the immediate and prolonged effects of body armor on the neuromuscular behavior of knee flexors and extensors were investigated. Methods: Body armor-induced changes in selected measures related to isometric and isokinetic behaviors of the knee were quantified using a commercial dynamometer. This was done in two testing sessions, with and without body armor, by assessing neuromuscular behaviors of the knee before and after participants completed a battery of basic and military-inspired tests, as well as a 45-minute brisk walking protocol. Results: Completing tests with body armor versus no armor was found to cause a greater change (i.e., reduction of ∼10 N·m) in maximum isometric strength of the knee flexors. It also was found to be associated with a significant increase in conventional/functional strength ratios. While there was no significant difference in maximum isometric knee extensor strength between genders at baseline, females demonstrated a significant reduction (∼16 N·m) following completion of tests regardless of the body armor condition. Conclusion: In general, the prolonged duration of wearing body armor was found to cause changes in the neuromuscular behavior of knee flexors and extensors that have been suggested in the literature to be associated with a higher risk of injury and reduced warfighter performance.
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军用防弹衣对膝关节等长和等速运动的影响
尽管新一代防弹衣在抵御弹道威胁、小型武器和简易爆炸装置方面已被证明是有效的,但这种防弹衣已成为作战人员性能和肌肉骨骼损伤的担忧来源。研究发现,长时间进行体育活动,无论是否穿防弹衣,都会改变膝盖神经肌肉的行为。有防弹衣时,膝关节屈肌的最大强度和伸屈肌与屈肌的强度比分别比无防弹衣时减小和增大。众所周知,膝关节神经肌肉行为的这种变化会对身体机能和膝关节损伤的风险产生不利影响。与防弹衣引起的膝关节神经肌肉行为变化相关的定量信息可用于设计伤害风险评估工具,减少或纠正特定不平衡的体能训练计划,并为下马作战人员建立重返服务(即受伤后)标准。技术摘要背景:膝关节损伤在军人中有相当高的患病率。下马作战人员通常必须穿着防弹衣在各种环境中穿行。目的:考虑到防弹衣质量对战士性能和受伤风险的影响,研究了防弹衣对膝关节屈肌和伸肌神经肌肉行为的直接和长期影响。方法:使用商用测功机量化与膝关节等长和等速行为相关的防弹衣诱导的选择措施的变化。通过评估参与者在完成一系列基本测试和军事测试以及45分钟快走方案之前和之后膝盖的神经肌肉行为,在有和没有防弹衣的两个测试阶段完成了这项研究。结果:研究发现,穿防弹衣与不穿防弹衣相比,在膝关节屈肌的最大等距强度方面会产生更大的变化(即减少~ 10 N·m)。它还被发现与常规/功能强度比的显著增加有关。虽然在基线时,性别之间的最大等距膝关节伸肌力量没有显着差异,但无论防弹衣状况如何,女性在完成测试后都表现出显着降低(~ 16 N·m)。结论:一般来说,长时间穿着防弹衣被发现会导致膝关节屈肌和伸肌的神经肌肉行为发生变化,这在文献中被认为与更高的受伤风险和降低作战人员的表现有关。
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