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使用专用假肢的运动员经胫骨截肢后短跑的生物力学适应性

Biomechanical adaptations of transtibial amputee sprinting in athletes using dedicated prostheses.

作者信息

Buckley J G

机构信息

Biomechanics Research Group, Department of Exercise and Sport Science, The Manchester Metropolitan University, Alsagar Campus, Hassell Road, Stoke-on-Trent Cheshire ST7 2HL, Manchester, UK.

出版信息

Clin Biomech (Bristol). 2000 Jun;15(5):352-8. doi: 10.1016/s0268-0033(99)00094-7.

DOI:10.1016/s0268-0033(99)00094-7
PMID:10758296
Abstract

OBJECTIVE

To determine the biomechanical adaptations of the prosthetic and sound limbs in two of the world's best transtibial amputee athletes whilst sprinting.

DESIGN

Case study design, repeated measures.

BACKGROUND

Using dedicated sprint prostheses transtibial amputees have run the 100 m in a little over 11 s. Lower-limb biomechanics when using such prostheses have not previously been investigated.

METHODS

Moments, muscle powers and the mechanical work done at the joints of the prosthetic and sound limbs were calculated as subjects performed repeated maximal sprint trials using a Sprint Flex or Cheetah prosthesis.

RESULTS

An increased hip extension moment on the prosthetic limb, with an accompanying increase in the amount of concentric work done, was the most notable adaptation in Subject 1 using either prosthesis. In Subject 2, an increased extension moment at the residual knee, and an accompanying increase in the amount of total work done, was the most notable adaptation using either prosthesis. This later adaptation was also evident in Subject 1 when using his Sprint Flex prosthesis.

CONCLUSIONS

Increased hip work on the prosthetic limb has previously been shown to be the major compensatory mechanism that allow transtibial amputees to run. The increased work found at the residual knee, suggests that the two amputee sprinters used an additional compensatory mechanism.

RELEVANCE

These findings provide an insight into the biomechanical adaptations that allow a transtibial amputee to attain the speeds achieved when sprinting.

摘要

目的

确定世界上两名顶尖的经胫骨截肢运动员在短跑时假肢和健肢的生物力学适应性。

设计

案例研究设计,重复测量。

背景

使用专用短跑假肢的经胫骨截肢者跑完100米用时略超过11秒。此前尚未对使用此类假肢时的下肢生物力学进行过研究。

方法

当受试者使用Sprint Flex或猎豹假肢进行重复的最大短跑试验时,计算假肢和健肢关节处的力矩、肌肉功率以及所做的机械功。

结果

在受试者1中,无论使用哪种假肢,最显著的适应性变化是假肢侧髋关节伸展力矩增加,同时向心功的量也随之增加。在受试者2中,无论使用哪种假肢,最显著的适应性变化是残肢膝关节伸展力矩增加,同时总功的量也随之增加。当受试者1使用他的Sprint Flex假肢时,这种后期的适应性变化也很明显。

结论

此前已表明,假肢侧髋关节做功增加是经胫骨截肢者能够跑步的主要代偿机制。在残肢膝关节处发现的做功增加表明,这两名截肢短跑运动员使用了额外的代偿机制。

意义

这些发现为经胫骨截肢者在短跑时达到相应速度所涉及的生物力学适应性提供了见解。

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