Energy generation, absorption, and transfer at the shoulder and elbow in youth baseball pitchers.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-09-01 Epub Date: 2021-06-08 DOI:10.1080/14763141.2021.1933158
Kyle W Wasserberger, Kevin A Giordano, Anne de Swart, Jeff W Barfield, Gretchen D Oliver
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Abstract

Performance during the baseball pitch is dependent on the flow of mechanical energy through the kinetic chain. Little is known about energy flow during the pitching motion and it is not known whether patterns of energy flow are related to pitching performance and injury risk. Therefore, the purpose of this study was to quantify energy generation, absorption, and transfer across the shoulder and elbow during the baseball pitch and explore the associations between these energetic measures, pitch speed, and traditional measures of upper extremity joint loading. The kinematics of 40 youth baseball pitchers were measured in a controlled laboratory setting. Energy flow between the thorax, humerus, and forearm was calculated using a segmental power analysis. Regression analyses revealed that pitch speed was best predicted by arm cocking phase shoulder energy transfer to the humerus and peak elbow valgus torque was best predicted by arm acceleration-phase elbow energy transfer to the forearm. Additionally, energy transfer across the shoulder and elbow generally exhibited the strongest correlations to pitch speed and upper extremity joint loads. These data reinforce the importance of energy transfer through the kinetic chain for producing high pitch speeds and provide descriptive data for energy flow during baseball pitching not previously found in the literature.

青少年棒球投手肩部和肘部的能量产生、吸收和传递。
棒球投球时的表现取决于机械能在动能链中的流动。人们对投球运动中的能量流知之甚少,也不知道能量流模式是否与投球表现和受伤风险有关。因此,本研究旨在量化棒球投球过程中肩部和肘部的能量产生、吸收和传递,并探索这些能量测量值、投球速度和上肢关节负荷的传统测量值之间的关联。在受控实验室环境中对 40 名青少年棒球投手的运动学进行了测量。使用分段功率分析法计算了胸部、肱骨和前臂之间的能量流。回归分析表明,投球速度的最佳预测指标是手臂扣球阶段肩部能量传递到肱骨,而肘关节外翻扭矩峰值的最佳预测指标是手臂加速阶段肘部能量传递到前臂。此外,肩部和肘部的能量传递通常与投球速度和上肢关节负荷的相关性最强。这些数据加强了通过动能链进行能量传递对产生高投球速度的重要性,并提供了棒球投球过程中能量流的描述性数据,这在以前的文献中是找不到的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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