Ryan C T, Schaer B L Dallap, Nunamaker D M
Richard S. Reynolds, Jr. Comparative Orthopedic Research Laboratory, Department of Clinical Studies, New Bolton Center, School of Veterinary Medicine, University of Pennsylvania, Kennett Square, Pennsylvania 19348, USA.
Equine Vet J. 2006 Nov;38(7):671-4. doi: 10.2746/042516406x156361.
A device is needed to safely and wirelessly evaluate accelerations experienced by the horse hoof under a variety of surface conditions with the horse exercising at training or racing speeds.
To develop a miniaturised wireless data acquisition system (WDAS) which reliably records hoof accelerations and the times over which they occur in a minimally invasive manner in the exercising Thoroughbred.
The following criteria were set for device development: production of a lightweight and minimally invasive system, which provides an adequate acceleration range, appropriate frequency response to capture high speed events, and compatibility with a low power wireless telemetry system. Following device development, the WDAS was calibrated, and tested in 6 Thoroughbred horses over a variety of surfaces.
Collection of acceleration in seven trials using 6 horses over a variety of surfaces resulted in repeatable acceleration data with respect to the overall characteristic shape of the impact profile. Impact accelerations varied with surface, ranging 34.8-191.7 g. Accelerations on take off were in a similar range, although higher in some trials. Peak impact accelerations tended to larger over the grass paddock surface, than either the indoor arena or the dirt track. During dirt track trials, accelerations on take-off were often comparably larger than those observed on impact within the same footfall.
This study reports the development of a wireless system that successfully measures hoof acceleration in a minimally invasive manner over a variety of surface and exercise conditions.
The WDAS will be used in further studies to evaluate various components of the horse-racetrack interface, in an attempt to identify risk factors for musculoskeletal injury in the Thoroughbred racehorse.
需要一种设备,能够在马匹以训练或比赛速度运动时,在各种地面条件下安全且无线地评估马蹄所经历的加速度。
开发一种小型化无线数据采集系统(WDAS),该系统能够以微创方式可靠地记录运动中的纯种马的蹄加速度及其发生时间。
为设备开发设定了以下标准:生产一种轻便且微创的系统,该系统具有足够的加速度范围、合适的频率响应以捕捉高速事件,并且与低功率无线遥测系统兼容。设备开发完成后,对WDAS进行了校准,并在6匹纯种马在各种地面上进行了测试。
使用6匹马在各种地面上进行的7次试验中收集的加速度数据,就冲击曲线的整体特征形状而言,得到了可重复的加速度数据。冲击加速度随地面条件而变化,范围为34.8 - 191.7g。起跳时的加速度也在类似范围内,尽管在某些试验中更高。草地围场表面的峰值冲击加速度往往比室内赛场或泥地赛道上的更大。在泥地赛道试验中,同一步幅内起跳时的加速度通常比着地时观察到的加速度大得多。
本研究报告了一种无线系统的开发,该系统能够在各种地面和运动条件下以微创方式成功测量蹄加速度。
WDAS将用于进一步研究,以评估马与赛道界面的各个组成部分,试图确定纯种赛马肌肉骨骼损伤的风险因素。