最大、传统和最小跑鞋的跑步生物力学差异。

Differences in running biomechanics between a maximal, traditional, and minimal running shoe.

机构信息

College of Public Health and Human Sciences, Program in Kinesiology, Oregon State University-Cascades, Bend, OR, USA.

出版信息

J Sci Med Sport. 2020 Jan;23(1):15-19. doi: 10.1016/j.jsams.2019.08.008. Epub 2019 Aug 13.

DOI:10.1016/j.jsams.2019.08.008

PMID:31501022

Abstract

OBJECTIVES

Previous studies comparing shoes based on the amount of midsole cushioning have generally used shoes from multiple manufacturers, where factors outside of stack height may contribute to observed biomechanical differences in running mechanics between shoes. Therefore, the purpose of this study was to compare ground reaction forces and ankle kinematics during running between three shoes (maximal, traditional, and minimal) from the same manufacturer that only varied in stack height.

DESIGN

Within-participant repeated measures METHODS: Twenty recreational runners ran overground in the laboratory in three shoe conditions (maximal, traditional, minimal) while three-dimensional kinematic and kinetic data were collected using a 3D motion capture system and two embedded force plates. Repeated measures ANOVAs (α=.05) compared biomechanical data between shoes.

RESULTS

While the loading rate was significantly greater in the minimal shoe compared to the maximal shoe, no other differences were seen for the ground reaction force variables. Peak eversion was greater in the maximal and minimal shoe compared to the traditional shoe, while eversion duration and eversion at toe-off were greater in the maximal shoe.

CONCLUSIONS

Previously cited differences in ground reaction force parameters between maximal and traditional footwear may be due to factors outside of midsole stack height. The eversion mechanics in the maximal shoes from this study may place runners at a greater risk of injury. Disagreement between previous studies indicates that more research on maximal running shoes is needed.

摘要

目的

以往比较中底缓冲量的鞋子的研究通常使用来自多个制造商的鞋子，而除了鞋跟高度之外的其他因素可能会导致观察到的跑鞋在跑步力学方面的生物力学差异。因此，本研究的目的是比较同一制造商生产的三种不同鞋跟高度（最大、传统和最小）的跑鞋在跑步过程中的地面反作用力和踝关节运动学。

设计

参与者内重复测量法

方法

20 名休闲跑步者在实验室的地面上以三种鞋类条件（最大、传统、最小）进行跑步，同时使用三维运动捕捉系统和两个嵌入式测力板收集三维运动学和动力学数据。使用重复测量方差分析（α=.05）比较鞋子之间的生物力学数据。

结果

虽然最小鞋的加载速率明显大于最大鞋，但地面反作用力变量没有其他差异。最大和最小鞋的峰值外旋大于传统鞋，而最大鞋的外旋持续时间和外旋在足趾离地时更大。

结论

以前在最大和传统鞋类之间的地面反作用力参数差异可能是由于中底鞋跟高度以外的因素造成的。本研究中最大鞋的外旋力学可能会使跑步者面临更大的受伤风险。之前研究的分歧表明，需要对最大跑鞋进行更多的研究。

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最大、传统和最小跑鞋的跑步生物力学差异。

Differences in running biomechanics between a maximal, traditional, and minimal running shoe.

机构信息

出版信息

OBJECTIVES

DESIGN

RESULTS

CONCLUSIONS

目的

设计

方法

结果

结论

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