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Biomechanical loads in running-based sports: estimating ground reaction forces from segmental accelerations (PhD Academy Award)
British Journal of Sports Medicine ( IF 11.6 ) Pub Date : 2019-07-24 , DOI: 10.1136/bjsports-2019-100670
Jasper Verheul

The overall aim of this thesis was to investigate whether ground reaction forces (GRFs) can be estimated from segmental accelerations, to provide further insight in the feasibility of using body-worn accelerometers to monitor whole-body biomechanical loading during running-based (team-) sports. Although the physiological demands of training have been investigated extensively, biomechanical loads and consequent responses are still poorly quantified and, therefore, not well understood.1 GRF is a well-established measure of external biomechanical loading which drives and is affected by muscular actions, and at the same time contributes to internal loads acting on individual structures (eg, muscles, tendons and bones). GRF thus forms an overall measure of the biomechanical loads experienced by the body as a whole and might be used to investigate the relation between whole-body loading and musculoskeletal responses. However, valid …

中文翻译:

跑步运动中的生物力学载荷:通过分段加速度估计地面反作用力(博士学院奖)

本论文的总体目标是研究是否可以从分段加速度估计地面反作用力 (GRF),以进一步了解使用身体佩戴的加速度计在基于跑步(团队- ) 运动的。尽管已经对训练的生理需求进行了广泛的研究,但生物力学负荷和随之而来的反应仍然很难量化,因此还没有得到很好的理解。 1 GRF 是一种公认​​的外部生物力学负荷量度,它驱动肌肉动作并受其影响,并且同时有助于作用于单个结构(例如,肌肉、肌腱和骨骼)的内部载荷。因此,GRF 形成了身体作为一个整体所经历的生物力学负荷的整体测量,并可用于研究全身负荷与肌肉骨骼反应之间的关系。然而,有效…
更新日期:2019-07-24
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