Department of Exercise Sciences, Brigham Young University , Provo, UT, USA.
Department of Statistics, Brigham Young University , Provo, UT, USA.
J Sports Sci. 2020 Aug;38(16):1844-1858. doi: 10.1080/02640414.2020.1757361. Epub 2020 May 25.
Running is a common exercise with numerous health benefits. Vertical ground reaction force (vGRF) influences running injury risk and running performance. Measurement of vGRF during running is now primarily constrained to a laboratory setting. The purpose of this study was to evaluate a new approach to measuring vGRF during running. This approach can be used outside of the laboratory and involves running shoes instrumented with novel piezoresponsive sensors and a standard accelerometer. Thirty-one individuals ran at three different speeds on a force-instrumented treadmill while wearing the instrumented running shoes. vGRF was predicted using data collected from the instrumented shoes, and predicted vGRF were compared to vGRF measured via the treadmill. Per cent error of the resulting predictions varied depending upon the predicted vGRF characteristic. Per cent error was relatively low for predicted vGRF impulse (2-7%), active peak vGRF (3-7%), and ground contact time (3-6%), but relatively high for predicted vGRF load rates (22-29%). These errors should decrease with future iterations of the instrumented shoes and collection of additional data from a more diverse sample. The novel technology described herein might become a feasible way to collect large amounts of vGRF data outside of the traditional biomechanics laboratory.
跑步是一种常见的运动方式,对健康有很多益处。垂直地面反作用力(vGRF)会影响跑步受伤的风险和跑步表现。目前,在跑步过程中测量 vGRF 主要局限于实验室环境。本研究的目的是评估一种在跑步过程中测量 vGRF 的新方法。这种方法可以在实验室之外使用,涉及到带有新型压阻传感器和标准加速度计的运动鞋。31 名个体在测力跑步机上以三种不同的速度穿着带仪器的跑鞋跑步。使用从仪器化鞋收集的数据来预测 vGRF,将预测的 vGRF 与通过跑步机测量的 vGRF 进行比较。预测结果的百分比误差取决于预测的 vGRF 特征。预测 vGRF 冲量(2-7%)、主动峰值 vGRF(3-7%)和触地时间(3-6%)的百分比误差相对较低,但预测 vGRF 加载率(22-29%)的百分比误差相对较高。随着仪器化鞋的进一步迭代以及从更多样化的样本中收集更多数据,这些误差应该会降低。本文所述的新技术可能成为在传统生物力学实验室之外收集大量 vGRF 数据的可行方法。
