跳跃运动员起跳腿的跟腱材料特性更佳。

Achilles tendon material properties are greater in the jump leg of jumping athletes.

作者信息

Bayliss A J, Weatherholt A M, Crandall T T, Farmer D L, McConnell J C, Crossley K M, Warden S J

机构信息

Department of Physical Therapy, School of Health and Rehabilitation Sciences, Indiana University, Indianapolis, IN 46202, USA.

出版信息

J Musculoskelet Neuronal Interact. 2016 Jun 1;16(2):105-12.

PMID:27282454

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5114353/

Abstract

PURPOSE

The Achilles tendon (AT) must adapt to meet changes in demands. This study explored AT adaptation by comparing properties within the jump and non-jump legs of jumping athletes. Non-jumping control athletes were included to control limb dominance effects.

METHODS

AT properties were assessed in the preferred (jump) and non-preferred (lead) jumping legs of male collegiate-level long and/or high jump (jumpers; n=10) and cross-country (controls; n=10) athletes. Cross-sectional area (CSA), elongation, and force during isometric contractions were used to estimate the morphological, mechanical and material properties of the ATs bilaterally.

RESULTS

Jumpers exposed their ATs to more force and stress than controls (all p≤0.03). AT force and stress were also greater in the jump leg of both jumpers and controls than in the lead leg (all p<0.05). Jumpers had 17.8% greater AT stiffness and 24.4% greater Young's modulus in their jump leg compared to lead leg (all p<0.05). There were no jump versus lead leg differences in AT stiffness or Young's modulus within controls (all p>0.05).

CONCLUSION

ATs chronically exposed to elevated mechanical loading were found to exhibit greater mechanical (stiffness) and material (Young's modulus) properties.

摘要

目的

跟腱（AT）必须适应需求的变化。本研究通过比较跳跃运动员跳跃腿和非跳跃腿的特性来探索跟腱的适应性。纳入非跳跃对照运动员以控制肢体优势效应。

方法

对男性大学水平的跳远和/或跳高运动员（跳跃者；n = 10）和越野运动员（对照组；n = 10）的优势（跳跃）腿和非优势（领先）跳跃腿的跟腱特性进行评估。使用横截面积（CSA）、伸长率和等长收缩时的力来双侧估计跟腱的形态、力学和材料特性。

结果

与对照组相比，跳跃者的跟腱承受了更大的力和应力（所有p≤0.03）。跳跃者和对照组的跳跃腿中的跟腱力和应力也大于领先腿（所有p<0.05）。与领先腿相比，跳跃者跳跃腿的跟腱刚度高17.8%，杨氏模量高24.4%（所有p<0.05）。对照组中，跳跃腿和领先腿在跟腱刚度或杨氏模量方面没有差异（所有p>0.05）。

结论

发现长期暴露于高机械负荷的跟腱表现出更大的力学（刚度）和材料（杨氏模量）特性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29aa/5114353/801ac258647a/JMNI-16-105-g001.jpg

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跳跃运动员起跳腿的跟腱材料特性更佳。

Achilles tendon material properties are greater in the jump leg of jumping athletes.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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