Biomechanical responses on specific load carriage and positive gradient walking: A pilot study

Q4 Pharmacology, Toxicology and Pharmaceutics

Indian journal of physiology and pharmacology Pub Date : 2024-03-04 DOI:10.25259/ijpp_393_2023

Vishal Singh Kaharwar, Sugata Das Kumar, Madhusudan Pal

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引用次数: 0

Abstract

Normal load carriage is an inevitable part of military marching tasks. Military tasks are inextricably related to carrying huge loads irrespective of different terrain. Continuous carrying of heavy loads from level ground to uphill gradient may alter kinetic and kinematic responses. Such responses, in the long run, may cause the risk of injury. This study was designed to find out the effects of external load on kinetic and kinematic responses at specific loads and grades (+10°). Six healthy Indian soldiers mean (± standard error of mean [SEM]) age 30.5 ± 3.5 years, height 168.7 ± 2.8 cm, weight 73.8 ± 7.08 kg participated in this study, walking on treadmill (Deneb and Polak-speed-1625) at 3.5 kmph for 6 min at 10° inclination for two conditions, with no-load and 30 kg compact-load at controlled laboratory condition 25°C and 50% relative humidity (RH). Compressive, shearing, torque, joint reaction force, and erector-spine forces for kinetic and angular changes of neck, trunk, thigh, forearm, upper arm, and leg were analysed by biomechanical analysis software (Ergomaster 4.6). A paired t-test and repeated measures analysis of variance were applied to determine the significant effects of the load on dependent variables. Significant changes were found in kinetic (compressive, shearing, torque, joint reactive force, and erector spine force) and kinematic (neck and trunk) parameters with subsequent increments of loads. From this study, it was concluded that walking in uphill condition, compressive, shearing, torque, joint reactive force, and erector spine force was found to be increased by 2.58, 4.65, 4.06, 2.83, and 4.06 folds, the angular changes found in neck and trunk were 1.78 and 1.25 folds compared to no-load conditions, respectively. The exerted forces, namely compressive force 74.12%, shearing force 86%, joint reaction force almost 75%, and erector spine force 83.82%, were very close to the injury risk profile; only the change of torque was not much closer to the risk profile. Such findings could be used for recommending load carriage guidelines for future studies.

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特定负重行走和正梯度行走的生物力学反应：试点研究

正常负重是军事行军任务中不可避免的一部分。无论地形如何，军事任务都与巨大的负重密不可分。从平地到上坡，连续搬运重物可能会改变运动和运动反应。从长远来看，这种反应可能会导致受伤的风险。本研究旨在了解在特定负载和坡度（+10°）下，外部负载对运动和运动学反应的影响。六名健康的印度士兵平均年龄（± 平均标准误差 [SEM]）为 30.5 ± 3.5 岁，身高 168.7 ± 2.8 厘米，体重 73.参加这项研究的六名健康印度士兵平均年龄（±3.5）岁，身高（168.7±2.8）厘米，体重（73.8±7.08）公斤。他们在跑步机（Deneb and Polak-speed-1625）上以 3.5 千米/小时的速度行走 6 分钟，在 10° 倾角的两种条件下行走，空载和 30 千克的紧凑负载，实验室控制条件为 25°C，相对湿度（RH）为 50%。使用生物力学分析软件（Ergomaster 4.6）分析了颈部、躯干、大腿、前臂、上臂和腿部的压缩力、剪切力、扭矩、关节反作用力和竖脊力的运动和角度变化。结果发现，随着负荷的增加，运动参数（压缩力、剪切力、扭矩、关节反应力和竖脊力）和运动学参数（颈部和躯干）都发生了显著变化。这项研究得出的结论是，在上坡条件下行走时，压缩力、剪切力、扭矩、关节反应力和竖脊力分别增加了 2.58 倍、4.65 倍、4.06 倍、2.83 倍和 4.06 倍，颈部和躯干的角度变化与无负荷条件相比分别增加了 1.78 倍和 1.25 倍。所施加的力，即压缩力 74.12%、剪切力 86%、关节反作用力近 75%、竖脊力 83.82%，非常接近受伤风险曲线；只有扭矩的变化不太接近风险曲线。这些发现可用于为今后的研究推荐载荷运输指南。

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来源期刊

Indian journal of physiology and pharmacology Pharmacology, Toxicology and Pharmaceutics-Pharmacology

CiteScore

0.50

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0.00%

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期刊介绍： Indian Journal of Physiology and Pharmacology (IJPP) welcomes original manuscripts based upon research in physiological, pharmacological and allied sciences from any part of the world.