评估投球动作中的肘部扭矩和其他参数：快速球、曲线球和变速球的比较。

Assessment of Elbow Torque and Other Parameters During the Pitching Motion: Comparison of Fastball, Curveball, and Change-up.

机构信息

Department of Orthopedic Surgery, Henry Ford Health System, Detroit, Michigan, U.S.A.; School of Medicine, Wayne State University, Detroit, Michigan, U.S.A..

School of Medicine, Wayne State University, Detroit, Michigan, U.S.A.

出版信息

Arthroscopy. 2018 Mar;34(3):816-822. doi: 10.1016/j.arthro.2017.09.045. Epub 2017 Dec 27.

DOI:10.1016/j.arthro.2017.09.045

PMID:29289396

Abstract

PURPOSE

To assess the precision of a new wearable device in detecting medial elbow torque during the pitching motion in competitive baseball pitchers and to determine the differences in torque across pitch types and thrower demographic characteristics.

METHODS

High school and collegiate baseball pitchers were recruited from August 1, 2016, to January 31, 2017, through direct request by athletic trainers and coaches. Body dimensions and throwing arm measurements of the participants were collected. The sensor was positioned directly over the medial elbow and pitchers were instructed to throw 8 fastballs, 8 curveballs, and 8 change-ups in a standard, randomized sequence. The sensor reported elbow torque, arm speed, arm slot, and shoulder rotation, whereas a radar gun measured peak ball velocity. Precision was calculated by measuring outlier rate, and mixed model regression analysis was performed to detect differences in throwing biomechanics among pitch types.

RESULTS

In total, 37 competitive baseball pitchers were included in the study. The device had a precision of 96.9% for fastballs, 96.9% for curveballs, and 97.9% for change-ups. The device was sensitive enough to distinguish pitches according to elbow torque, arm speed, arm slot, and shoulder rotation. Fastballs caused the greatest relative torque across the medial elbow (average = 45.56 N m), compared with change-ups (43.77 N m; P = .006) and curveballs (43.83 N m; P = .01). Ball velocity contributed most to medial elbow torque (P = .003), followed by elbow circumference (P = .021), where smaller elbow circumference predicted greater medial elbow torque.

CONCLUSIONS

The sensor is a precise and reproducible device for measuring torque across the medial elbow, as well as additional parameters of arm speed, arm slot, and shoulder rotation. Torque was significantly relatively higher in fastballs than curveballs and change-ups.

LEVEL OF EVIDENCE

Level III, comparative study.

摘要

目的

评估一种新的可穿戴设备在检测竞技棒球投手中投球动作中肘内扭矩的精确性，并确定不同投球类型和投手人口统计学特征之间的扭矩差异。

方法

2016 年 8 月 1 日至 2017 年 1 月 31 日，通过运动训练师和教练的直接要求，从高中和大学棒球队中招募棒球投手。收集参与者的身体尺寸和投掷臂测量值。传感器直接放置在肘内，并指示投手以标准的随机顺序投掷 8 个快球、8 个曲线球和 8 个变速球。传感器报告肘部扭矩、手臂速度、臂槽和肩部旋转，而雷达枪则测量球的峰值速度。通过测量离群率来计算精度，并进行混合模型回归分析以检测不同投球类型之间的投掷生物力学差异。

结果

共有 37 名竞技棒球投手参与了这项研究。该设备对快球的精度为 96.9%，对曲线球的精度为 96.9%，对变速球的精度为 97.9%。该设备足够灵敏，可以根据肘部扭矩、手臂速度、臂槽和肩部旋转来区分投球。与变速球（43.77 N·m；P=0.01）和曲线球（43.83 N·m；P=0.006）相比，快球在整个肘内产生的相对扭矩最大（平均 45.56 N·m）。球速对肘内扭矩的影响最大（P=0.003），其次是肘围（P=0.021），其中较小的肘围预示着更大的肘内扭矩。

结论

该传感器是一种精确且可重复的设备，可测量肘内扭矩以及手臂速度、臂槽和肩部旋转等附加参数。与曲线球和变速球相比，快球的扭矩相对较高。

证据等级

三级，比较研究。

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评估投球动作中的肘部扭矩和其他参数：快速球、曲线球和变速球的比较。

Assessment of Elbow Torque and Other Parameters During the Pitching Motion: Comparison of Fastball, Curveball, and Change-up.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

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目的

方法

结果

结论

证据等级

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