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Ground reaction force metrics are not strongly correlated with tibial bone load when running across speeds and slopes: Implications for science, sport and wearable tech

机译：在不同速度和坡度上跑步时，地面反作用力指标与胫骨骨负荷没有强烈关系：对科学，体育和可穿戴技术的影响

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IntroductionTibial stress fractures are a common overuse injury resulting from the accumulation of bone microdamage due to repeated loading. Researchers and wearable device developers have sought to understand or predict stress fracture risks, and other injury risks, by monitoring the ground reaction force (GRF, the force between the foot and ground), or GRF correlates (e.g., tibial shock) captured via wearable sensors. Increases in GRF metrics are typically assumed to reflect increases in loading on internal biological structures (e.g., bones). The purpose of this study was to evaluate this assumption for running by testing if increases in GRF metrics were strongly correlated with increases in tibial compression force over a range of speeds and slopes.

机译：简介胫骨应力性骨折是由于反复加载而引起的骨微损伤的累积而引起的常见的过度使用损伤。研究人员和可穿戴设备开发人员已通过监视地面反作用力（GRF，即脚与地面之间的力）或通过可穿戴设备捕获的GRF相关信息（例如胫骨震动）来试图了解或预测应力破裂风险以及其他伤害风险传感器。通常假定GRF指标的增加反映了内部生物结构（例如骨骼）的负荷增加。这项研究的目的是通过测试GRF指标的增加是否与一系列速度和坡度上的胫骨压缩力的增加强烈相关来评估运行的假设。

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期刊名称 PLoS Clinical Trials
作者
Emily S. Matijevich; Lauren M. Branscombe; Leon R. Scott; Karl E. Zelik;
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年(卷),期 2012(14),1
年度 2012
页码 e0210000
总页数 19
原文格式 PDF
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专利

1. Ground reaction forces don't indicate tibial forces: implications for injury prevention, shoe design & wearable tech [J] . Emily Matijevich, Lauren M. Branscombe, Leon R. Scott, Footwear science . 2019,第S1期

机译：地面反作用力并不表示胫骨力：对预防伤害，鞋子设计和可穿戴技术的影响
2. Biomechanical loads in running-based sports: estimating ground reaction forces from segmental accelerations (PhD Academy Award) [J] . Verheul Jasper British journal of sports medicine . 2020,第14期

机译：基于跑步运动的生物力学负载：估算分段加速度的地面反应力量（博士学院奖）
3. Whole-body biomechanical load in running-based sports: The validity of estimating ground reaction forces from segmental accelerations [J] . Verheul Jasper, Gregson Warren, Lisboa Paulo, Journal of science and medicine in sport . 2019,第6期

机译：基于运行的运动中的全身生物力学负载：估算分段加速度的地面反应力的有效性
4. Study on estimation of peak Ground Reaction Forces using tibial accelerations in running [C] . Charry Edgar, Hu Wenzheng, Umer Muhammad, IEEE International Conference on Intelligent Sensors, Sensor Networks and Information Processing . 2013

机译：利用胫骨加速度估算地面最大反作用力的研究
5. Analysis of Ground Reaction Forces while Running with a Hydration Pack [D] . Robbins, Joe. 2021

机译：用水合包装运行时接地反作用力分析
6. Ground reaction forces during walking with different load and slope combinations in rats [O] . N. Bravenboer, B. T. T. M. van Rens, H. W. van Essen, 2017

机译：大鼠在不同载荷和坡度组合下行走时的地面反作用力
7. Whole-body biomechanical load in running-based sports: The validity of estimating ground reaction forces from segmental accelerations [O] . Jasper Verheul, Warren Gregson, Paulo Lisboa, 2019

机译：基于运行的运动中的全身生物力学载荷：估算分段加速度的地面反作用力的有效性
8. Exercise Countermeasures for Bone Loss During Space Flight: A Method for the Study of Ground Reaction Forces and Their Implications for Bone Strain [R] . Peterman, M., McCrory, J. L., Sharkey, N. A., 1999

机译：空间飞行中骨丢失的运动对策：地面反作用力研究方法及其对骨应变的影响

Ground reaction force metrics are not strongly correlated with tibial bone load when running across speeds and slopes: Implications for science, sport and wearable tech

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