预测肘部内翻扭矩峰值的步幅阶段运动学参数。

Stride-Phase Kinematic Parameters That Predict Peak Elbow Varus Torque.

作者信息

Tanaka Hiroshi, Hayashi Toyohiko, Inui Hiroaki, Muto Tomoyuki, Tsuchiyama Kohnan, Ninomiya Hiroki, Nakamura Yasuo, Kobashi Syoji, Nobuhara Katsuya

机构信息

Nobuhara Hospital and Institute of Biomechanics, Tatsuno, Japan.

Graduate School of Science and Technology, Niigata University, Niigata, Japan.

出版信息

Orthop J Sports Med. 2020 Dec 15;8(12):2325967120968068. doi: 10.1177/2325967120968068. eCollection 2020 Dec.

DOI:10.1177/2325967120968068

PMID:33403214

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7745573/

Abstract

BACKGROUND

During baseball pitching, a high amount of elbow varus torque in the arm cocking-to-acceleration phase is thought to be a biomechanical risk factor for medial elbow pain and injury. The biomechanics of the stride phase may provide preparation for the arm cocking-to-acceleration phase that follows it.

PURPOSE

To determine the kinematic parameters that predict peak elbow varus torque during the stride phase of pitching.

STUDY DESIGN

Descriptive laboratory study.

METHODS

Participants were 107 high school baseball pitchers (age range, 15-18 years) without shoulder or elbow problems. Whole-body kinematics and kinetics during fastball pitching were analyzed using 3-dimensional measurements from 36 retroreflective markers. A total of 26 kinematic parameters of the upper and lower limbs during the stride phase leading up to the stride foot contact were extracted for multiple regression analysis to assess their combined effect on the magnitude of peak elbow varus torque.

RESULTS

Increased wrist extension, elbow pronation, knee flexion on the leading leg, knee extension on the trailing leg at stride foot contact, and upward displacement of the body's center of mass in the stride phase were significantly correlated with decreased peak elbow varus torque (all < .05). Moreover, 38% of the variance in peak elbow varus torque was explained by a combination of these 5 significant kinematic variables ( < .001).

CONCLUSION

We found that 5 kinematic parameters during the stride phase and the combination of these parameters were associated with peak elbow varus torque. The stride phase provides biomechanical preparation for pitching and plays a key role in peak elbow varus torque in subsequent pitching phases.

CLINICAL RELEVANCE

The present data can be used to screen pitching mechanics with motion capture assessment to reduce peak elbow varus torque. Decreased peak elbow varus torque is expected to reduce the risk of elbow medial pain and injury.

摘要

背景

在棒球投球过程中，手臂从后引至加速阶段时出现的大量肘内翻扭矩被认为是导致内侧肘部疼痛和损伤的生物力学风险因素。跨步阶段的生物力学可能为随后的手臂从后引至加速阶段做好准备。

目的

确定在投球跨步阶段预测峰值肘内翻扭矩的运动学参数。

研究设计

描述性实验室研究。

方法

参与者为107名无肩部或肘部问题的高中棒球投手（年龄范围15 - 18岁）。使用来自36个反光标记的三维测量技术分析快球投球过程中的全身运动学和动力学。在跨步脚接触之前的跨步阶段，提取上肢和下肢的总共26个运动学参数进行多元回归分析，以评估它们对峰值肘内翻扭矩大小的综合影响。

结果

在跨步脚接触时，腕关节伸展增加、肘关节旋前、前腿膝关节屈曲、后腿膝关节伸展以及跨步阶段身体重心向上位移与峰值肘内翻扭矩降低显著相关（均P <.05）。此外，这5个显著运动学变量的组合解释了峰值肘内翻扭矩38%的方差（P <.001）。

结论

我们发现跨步阶段的5个运动学参数以及这些参数的组合与峰值肘内翻扭矩相关。跨步阶段为投球提供生物力学准备，并在随后投球阶段的峰值肘内翻扭矩中起关键作用。

临床意义

目前的数据可用于通过运动捕捉评估来筛查投球力学，以降低峰值肘内翻扭矩。预计峰值肘内翻扭矩降低可减少肘部内侧疼痛和损伤的风险。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c0dc/7745573/f93e5d825f08/10.1177_2325967120968068-fig1.jpg

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预测肘部内翻扭矩峰值的步幅阶段运动学参数。

Stride-Phase Kinematic Parameters That Predict Peak Elbow Varus Torque.

作者信息

机构信息

出版信息

BACKGROUND

PURPOSE

STUDY DESIGN

METHODS

RESULTS

CONCLUSION

CLINICAL RELEVANCE

背景

目的

研究设计

方法

结果

结论

临床意义

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