跑步过程中的腿部僵硬程度和足部朝向
Leg stiffness and foot orientations during running.
作者信息
Viale F, Dalleau G, Freychat P, Lacour J R, Belli A
机构信息
Laboratoire de Physiologie de l' Exercice, Faculté de Médecine Lyon-Sud, Oullins, France.
出版信息
Foot Ankle Int. 1998 Nov;19(11):761-5. doi: 10.1177/107110079801901110.
This study was done to determine whether leg stiffness (Kleg) during running was related to rearfoot-to-forefoot angle in standing (RFAst) and running (RFArun). Footprints obtained from 32 subjects were used to calculate RFAst and RFArun, defined as positive when forefoot axis was abducted from rearfoot axis. A spring-mass model was used to calculate Kleg in running from ground reaction forces, measured by a force platform. The Kleg of runners (13.0 +/- 2.7 kN x m(-1)) was negatively correlated with RFAst (-8.4 degrees +/- 6.4 degrees) and RFArun (-0.4 degrees +/- 7.2 degrees). When runners were divided into opened foot (RFArun > 0; N = 19) and closed foot (RFArun < 0; N = 12) groups, the Kleg of opened foot runners was less than that of the closed runners. We suggest that foot structure is a factor responsible for the differences in leg stiffness observed in runners.
本研究旨在确定跑步过程中的腿部僵硬度(Kleg)是否与站立时(RFAst)和跑步时(RFArun)的后足到前足角度有关。从32名受试者获取的脚印用于计算RFAst和RFArun,当从后足轴外展前足轴时,定义为正值。使用弹簧质量模型根据力平台测量的地面反作用力计算跑步时的Kleg。跑步者的Kleg(13.0±2.7 kN×m-1)与RFAst(-8.4°±6.4°)和RFArun(-0.4°±7.2°)呈负相关。当跑步者分为开脚组(RFArun>0;N = 19)和闭脚组(RFArun<0;N = 12)时,开脚跑步者的Kleg小于闭脚跑步者。我们认为足部结构是导致跑步者腿部僵硬度差异的一个因素。
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