重型个人防护装备对爆炸物处理作业中肌肉激活和运动行为的影响

Effects of Heavy Personal Protection Equipment on Muscle Activation and Motor Behavior During Explosive Ordnance Disposal Operations

Human Factors The Journal of the Human Factors and Ergonomics Society · 2026
被引 0
ABS 3

中文导读

研究了爆炸物处理作业中穿戴重型防护装备对腰腿肌肉激活和运动行为的影响,发现装备增加了肌肉负荷并限制了活动,可能增加髋部劳损风险。

Abstract

ObjectiveTo investigate muscle activation and movement behavior in the lower back and legs during selected explosive ordnance disposal (EOD) operational tasks to evaluate the impact of EOD personal protective equipment (PPE) on performance and the body.BackgroundEOD PPE is designed to shield technicians from blast-related threats. However, the protective features make the PPE heavy, and restrictive to movement. It remains unclear how wearers adapt their movement under these constraints.MethodSixteen participants performed six EOD operational tasks ranked the most challenging and frequently encountered. Electromyography (EMG), force plates, and motion capture system were used to measure the movement while the tasks were performed with and without wearing EOD PPE.ResultsEMG results show task-dependent, asymmetrical muscle activation, with greater demands during physically intensive tasks such as bending, lifting, and stair climbing. A trend of decreased ankle muscle activation was observed when carrying a heavy load. Reduced center of pressure displacement was noted during tasks such as bending and rising from kneeling.ConclusionWearing EOD PPE amplifies muscle demands, particularly in the thigh muscles during movements requiring postural adjustment and lifting and may increase stiffness or restrict movement. Elevated thigh muscle activity across tasks, together with restricted mobility, increases the hip's vulnerability to overuse and musculoskeletal injury.ApplicationAltered motor behavior from wearing EOD PPE has implications for other PPE uses. Understanding human motor adaptation during operations supports prevention strategies such as exoskeletons, ergonomic designs, and targeted training, to reduce musculoskeletal strain, sustain performance, and protect long-term health.

人体工效学职业健康运动生物力学防护装备