马蹄与地面的相互作用及其对马的肌肉骨骼适应性和受伤风险的影响。

The foot-surface interaction and its impact on musculoskeletal adaptation and injury risk in the horse.

作者信息

Parkes R S V, Witte T H

机构信息

Clinical Science and Services, The Royal Veterinary College, University of London, North Mymms, Hertfordshire, UK.

出版信息

Equine Vet J. 2015 Sep;47(5):519-25. doi: 10.1111/evj.12420. Epub 2015 Mar 18.

DOI:10.1111/evj.12420

PMID:25640598

Abstract

The equine limb has evolved for efficient locomotion and high-speed performance, with adaptations of bone, tendon and muscle. However, the system lacks the ability seen in some species to dynamically adapt to different circumstances. The mechanical interaction of the limb and the ground is influenced by internal and external factors including fore-hind mass distribution, lead limb, moving on a curve, shoeing and surface properties. It is unclear which of the components of limb loading have the largest effect on injury and performance but peak load, impact and vibration all play a role. Factors related to the foot-ground interface that limit performance are poorly understood. Peak performance varies vastly between disciplines but at high speeds such as racing and polo, force and grip are key limits to performance.

摘要

马的肢体已经进化以实现高效的运动和高速表现，骨骼、肌腱和肌肉都有相应的适应性变化。然而，该系统缺乏一些物种所具有的动态适应不同环境的能力。肢体与地面的机械相互作用受到内部和外部因素的影响，包括前后质量分布、领先肢体、在弯道上移动、钉蹄和地面特性。目前尚不清楚肢体负荷的哪些组成部分对损伤和表现影响最大，但峰值负荷、冲击和振动都起到了一定作用。与足底-地面界面相关的限制表现的因素还知之甚少。不同学科的最佳表现差异很大，但在赛马和马球等高速运动中，力量和抓地力是表现的关键限制因素。

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马蹄与地面的相互作用及其对马的肌肉骨骼适应性和受伤风险的影响。

The foot-surface interaction and its impact on musculoskeletal adaptation and injury risk in the horse.

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