平地跑步时不同脚掌着地模式下的胫骨峰值加速度:对不同组群的独立调查。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Pieter Van den Berghe, Sander De Bock, Bastiaan Breine, Nicolas Horvais, Allison Gruber, Joren Six, Pierre Samozino, Marc Leman, Jean-Benoît Morin, Dirk De Clercq, Marlène Giandolini
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引用次数: 0

摘要

胫骨加速度峰值可用于监测长跑过程中撞击的严重程度,并作为生物反馈的输入。本文比较了后脚掌和前脚掌击球时的胫骨加速度峰值。独立研究中心进行了两项不同的研究。在第一个研究中心,收集了 14 名后脚着地者的胫骨加速度和光学运动捕捉数据,这些人后来改用前脚掌着地。在第二个中心,收集并处理了另外 14 名后脚掌击球者和 9 名前脚掌击球者的胫骨加速度。在以次极限速度进行的地面水平跑步中,指导前脚掌着地者的胫骨加速度峰值(ΔX = 7.6 ± 1.3 g,平均值±标准误差差)和习惯前脚掌着地者的胫骨加速度峰值(ΔX- = 3.7 ± 1.1 g)均大于后脚掌着地者。小腿运动学显示,在前脚掌着地的情况下,触地后的前后速度下降幅度更大。前脚掌着地时,胫骨后部加速度更大,从而导致胫骨加速度峰值增大,而且比后脚掌着地时发生得更早。这两种脚部击球模式的胫骨加速度轴向峰值没有明显差异。总之,脚掌击球模式会对平跑时的胫骨加速度峰值产生不同的影响,这可能会对监测和生物反馈应用产生影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Peak tibial accelerations in different foot strike patterns during level running: an independent investigation in different cohorts.

Peak tibial accelerations are used to monitor impact severity during distance running and as input for bio-feedback. Here, peak tibial accelerations were compared between rearfoot and forefoot strikes. Two different studies were undertaken by independent research centres. Tibial acceleration and optical motion capture were collected in 14 rearfoot strikers who changed to a forefoot strike in the first centre. In the second centre, tibial acceleration of 14 other rearfoot strikers and nine forefoot strikers were collected and processed. In over-ground level running at a submaximal speed, the resultant peak tibial acceleration was greater in the instructed forefoot strike condition (ΔX = 7.6 ± 1.3 g, mean ± standard error difference) and in the habitual forefoot strikers (ΔX- = 3.7 ± 1.1 g) than in the rearfoot strikers. The shank kinematics revealed a greater decrease in antero-posterior velocity following touchdown in the forefoot strike condition. The forefoot strikes experienced greater posterior tibial acceleration, which resulted in an increased resultant peak tibial acceleration that also occurred earlier than in the rearfoot strikes. No significant difference in axial peak tibial acceleration was found between these foot strike patterns. In conclusion, the foot strike pattern differently affects peak tibial accelerations in level running, which can have implications for monitoring and biofeedback applications.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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