Mullerpatan Rajani, Shetty Triveni, Singh Yuvraj, Agarwal Bela
MGM School of Physiotherapy, MGM Institute of Health Sciences, Navi Mumbai, India.
MGM School of Physiotherapy, MGM Institute of Health Sciences, Navi Mumbai, India.
J Bodyw Mov Ther. 2021 Apr;26:1-6. doi: 10.1016/j.jbmt.2020.12.014. Epub 2021 Feb 6.
Bounce rope-skip holds immense scope as an aerobic exercise in space and time constrained urban setting with additional constraints placed by pandemic situations such as Covid 19, wherein adherence to commonly performed weight-bearing, aerobic activities like walking and running is a challenge. Limited knowledge informing biomechanical demands and misconceptions about knee joint loading, confines safe application of bounce rope-skip in health promotion. Thus, present study aimed to explore kinematics and lower-extremity joint loading during rope-skipping compared to walking and running.
Following ethical approval, 3D motion analysis of bounce rope-skip, walk and run was captured from 22 healthy female participants aged 18-25yr using 12-camera Vicon system and 2AMTI force plates. Three trials for bounce rope-skip were recorded with five skip-jumps on force-plates at a cadence of 105 skips/min. Mid-skip, mid-gait and mid-run data were averaged to compute kinetic and kinematic variables for hip, knee and ankle during loading/initial contact, take-off/push-off and flight/mid-swing phases of rope-skip, walk and run.
Average time of one rope-skip cycle was 1.2sec; mean foot contact time was 0.55sec and flight time was 0.65sec. In one bounce rope-skip cycle, hip motion ranged between 13.4-35.3flexion; knee between 13.6 -67.9° flexion and ankle between 34.5dorsiflexion to-13.4plantarflexion. Vertical ground reaction force (vGRF) during rope-skip (landing-phase) was lower compared to run; however, it was higher than walk (p < 0.001). In coronal plane, peak hip and knee adductor moment during rope-skip were lower compared to run and higher than walk (p < 0.001).
Bounce rope-skip generated low lower extremity joint loading compared to run; supporting its prescription as a hip and knee joint-protective aerobic weight-bearing exercise for health promotion in young adults.
在空间和时间受限的城市环境中,跳绳作为一种有氧运动具有巨大的应用潜力,尤其是在新冠疫情等大流行情况下,人们难以坚持进行如散步和跑步等常见的负重有氧运动。关于跳绳生物力学需求的知识有限,以及对膝关节负荷的误解,限制了跳绳在健康促进中的安全应用。因此,本研究旨在探讨与步行和跑步相比,跳绳过程中的运动学和下肢关节负荷情况。
在获得伦理批准后,使用12台摄像机的Vicon系统和2块AMTI测力台,对22名年龄在18 - 25岁的健康女性参与者进行了跳绳、步行和跑步的三维运动分析。记录了三次跳绳试验,在测力台上以每分钟105次跳绳的节奏进行五次单摇跳。对跳绳、步行和跑步的负荷/初始接触、起跳/蹬地和腾空/摆动中期阶段的髋、膝和踝关节的动力学和运动学变量进行了平均计算,采用跳绳、步行和跑步过程中的跳绳中期、步态中期和跑步中期数据。
一个跳绳周期的平均时间为1.2秒;平均足部接触时间为0.55秒,腾空时间为0.65秒。在一个跳绳周期中,髋部运动范围在13.4° - 35.3°屈曲之间;膝关节在13.6° - 67.9°屈曲之间,踝关节在34.5°背屈至 - 13.4°跖屈之间。跳绳(着地阶段)时的垂直地面反作用力(vGRF)低于跑步;然而,高于步行(p < 0.001)。在冠状面,跳绳时髋部和膝关节内收力矩峰值低于跑步,高于步行(p < 0.001)。
与跑步相比,跳绳产生的下肢关节负荷较低;支持将其作为一种对髋膝关节有保护作用的有氧负重运动,用于促进年轻人的健康。
