Kinematic Sequencing of the Football Pass Using Inertial Motion Analysis.

IF 2.1 Q3 SPORT SCIENCES

International Journal of Sports Physical Therapy Pub Date : 2025-08-02 eCollection Date: 2025-01-01 DOI:10.26603/001c.142488

Andre Labbe, William Foret, Madison Troy, Phil Page, Felix Buddy Savoie

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Abstract

Background: The kinematic sequencing of overhead throwing demonstrates a series of joint motions to generate the throwing force. The biomechanics of the overhead throw have been heavily researched in baseball players; however, more research is needed on the biomechanics of passing in football quarterbacks.

Purpose: The purpose of this pilot descriptive study was to identify the kinematic sequencing of a football quarterback's pass using wireless inertial motion technology.

Study design: Pilot descriptive cross-sectional study.

Methods: Eight young, healthy, right-handed, pain-free quarterbacks (four high school, four collegiate) performed three drop back passes each at three increasing distances (9 total passes at 10, 20 and 30 yards) while wearing Ultium wireless IMUs (Noraxon, Scottsdale AZ) as part of their pre-season assessment. Kinematic data of each pass were identified and marked at four points of interest: foot contact, maximal external rotation, ball release, and maximal internal rotation. Data were analyzed with Noraxon MyoMotion 3.18 using a customized kinematic sequence algorithm to provide mean angles at specific points of interest over the nine throws of each quarterback.

Results: Subjects were male, mean age 16.4 +/- 1.8 years (range 14-20). Kinematic sequencing of the extremities revealed shoulder abduction and external rotation peaked respectively at an average of 112° and 134° at the beginning of the acceleration phase, as did elbow flexion (100°). Stride knee flexion remained relatively consistent, increasing from 29° to 46° after maximal shoulder external rotation. The trunk remained relatively upright; however, quarterbacks experienced an average of 23° of lumbar extension at maximal shoulder external rotation. The trunk initiated rotation with an average of 40° to the right at foot contact, which reversed during the acceleration phase to a maximum of 21° to the left. Hip-shoulder separation remained about 20°, initially favoring right trunk rotation in the cocking phase, but quickly reversed to 20° favoring left trunk rotation in the follow-through. Minimal hip-shoulder separation (11°) occurred at ball release.

Conclusion: In the kinematic sequence from lower to upper extremity, stride knee flexion remains relatively unchanged, while trunk movement tends to shift away from the throwing side, converging toward a near-neutral position in all three planes just before ball release. This pilot study provided insight into the kinematic sequencing of football quarterbacks. Further research is warranted in evaluating the quarterback pass with inertial motion units.

Level of evidence: 3.

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利用惯性运动分析对足球传球进行运动学排序。

背景：头顶投掷的运动学顺序演示了一系列关节运动来产生投掷力。棒球运动员头顶球的生物力学已经得到了大量研究；然而，对足球四分卫传球的生物力学还需要进行更多的研究。目的：这项实验性描述性研究的目的是利用无线惯性运动技术确定橄榄球四分卫传球的运动学顺序。研究设计：试验性描述性横断面研究。方法：8名年轻、健康、右利手、无疼痛的四分卫（4名高中生，4名大学生）戴着Ultium无线imu （Noraxon, Scottsdale AZ）作为赛季前评估的一部分，在三个不断增加的距离（10、20和30码处共9次传球）进行了3次后场传球。每次传球的运动学数据被识别并标记在四个感兴趣的点：足部接触、最大外旋、球释放和最大内旋。数据分析使用Noraxon MyoMotion 3.18，使用定制的运动学序列算法，以提供每个四分卫在9次投掷中特定兴趣点的平均角度。结果：受试者为男性，平均年龄16.4±1.8岁（14-20岁）。四肢运动序列显示，在加速阶段开始时，肩部外展和外旋分别达到平均112°和134°的峰值，肘关节屈曲（100°）也是如此。跨步膝关节屈曲保持相对一致，最大肩关节外旋后从29°增加到46°。树干保持相对直立；然而，四分卫在最大肩膀外旋时平均腰椎伸展为23°。躯干在与足部接触时平均向右旋转40°，在加速阶段，躯干向左旋转最多21°。髋肩分离保持在20°左右，最初在翘起阶段有利于右躯干旋转，但在跟进阶段迅速逆转为20°，有利于左躯干旋转。脱球时发生最小的髋肩分离（11°）。结论：在从下肢到上肢的运动顺序中，步幅膝关节屈曲保持相对不变，而躯干运动倾向于远离投掷侧，在球释放前三个平面向接近中性的位置收敛。这项初步研究为橄榄球四分卫的运动学序列提供了见解。在用惯性运动单位评价四分卫传球时，需要进一步的研究。证据等级：3。

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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