Does Reduced Ball Inflation Pressure in Association Football Decrease Head Impact Kinematics?

IF 5.4 2区医学 Q3 ENGINEERING, BIOMEDICAL

Annals of Biomedical Engineering Pub Date : 2025-08-04 DOI:10.1007/s10439-025-03804-0

Rory England, Suzie Liverseidge, Yusuke Miyazaki, Samuel W Oxford, Ieuan Phillips, Jon Farmer

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引用次数: 0

Abstract

Purpose: Apparent degeneration in brain health due to heading the football is amongst the most pressing and contentious health-related questions in sport (Keogh F, Pirks N (2024) "Pain was sickening"-Ex-players on heading fears. In: BBC). The purpose of this study was to thoroughly explore the effectiveness of reduced inflation pressure as an intervention to reduce head kinematics from a ball to head impact. The influence of impact location, head orientation, neck flexion angle and ball type on the intervention were experimentally investigated.

Method: A Hybrid III head and neck was impacted in frontal and oblique locations with two modern footballs that were projected using a bespoke launch device. Peak linear acceleration, peak angular velocity, peak angular acceleration and DAMAGE metrics were calculated for a total of 34 permutations of impact variables at two inflation pressures.

Results: Magnitude was decreased (82%) or unchanged (8%) for 90% of impacts with average magnitude changes between - 2 and - 12% across the four metrics. Findings indicated that decreased inflation pressure was a positive intervention towards decreasing kinematic magnitudes in most cases. This was especially true for linear acceleration, angular velocity and angular acceleration, where 100, 97 and 100% of impacts were reduced or unchanged, respectively.

Conclusions: Reduced inflation pressure was overall an effective mitigation to reduce the kinematic magnitude of heading in football based upon these four kinematic metrics despite 10% of impacts exhibiting an increase in kinematic magnitude. The DAMAGE predictor of MPS exhibited 12 out of 13 cases where magnitude increased demonstrating the capacity for decreased inflation pressure to result in increased kinematics for an angular response derived metric, indicating that reducing inflation pressure is not a universal solution. Nonetheless DAMAGE still saw a net decrease in magnitude across all impacts. Metric magnitude was found to be sensitive to head orientation, impact location and ball type, demonstrating the importance of the sensitivity analysis in this study. Two impacts were recommended to represent the worst-case ball to head impact, one in each nominal orientation. These locations contrasted with those commonly used in literature, a finding pertinent to future experimental design in football heading research.

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足协足球充气压力降低会降低头部撞击运动学吗？

目的：由于头球导致的大脑健康明显退化是体育运动中最紧迫和有争议的健康相关问题之一（Keogh F, Pirks N (2024)）“疼痛令人作呕”——前球员谈论头球恐惧。:英国广播公司)。本研究的目的是深入探讨降低充气压力作为一种干预措施的有效性，以减少头部从球到头部的冲击。实验研究了撞击位置、头部方位、颈部屈曲角度和球型对干预的影响。方法：使用定制的发射装置，用两个现代足球在正面和倾斜位置撞击混合III型头颈部。在两种膨胀压力下，计算了34种冲击变量排列的峰值线加速度、峰值角速度、峰值角加速度和损伤指标。结果：90%的影响的震级降低（82%）或不变（8%），四个指标的平均震级变化在- 2到- 12%之间。研究结果表明，在大多数情况下，降低通货膨胀压力对降低运动幅度是积极的干预。对于线加速度、角速度和角加速度来说尤其如此，分别减少了100%、97%和100%的冲击或保持不变。结论：根据这四个运动学指标，尽管10%的撞击表现出运动学幅度的增加，但总体而言，减少膨胀压力是降低足球头球运动幅度的有效缓解措施。MPS的DAMAGE预测器显示，13例中有12例的幅度增加，表明降低充气压力的能力导致角响应衍生度量的运动学增加，这表明降低充气压力并不是一个通用的解决方案。尽管如此，“损害”在所有影响中仍出现了净下降。我们发现公制量级对头部方向、撞击位置和球的类型都很敏感，这表明敏感性分析在本研究中的重要性。推荐两种冲击来代表最坏情况下球对头的冲击，每个名义方向一个。这些位置与文献中常用的位置形成对比，这一发现与未来足球头球研究的实验设计有关。

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

Annals of Biomedical Engineering 工程技术-工程：生物医学

CiteScore

7.50

自引率

15.80%

发文量

212

审稿时长

3 months

期刊介绍： Annals of Biomedical Engineering is an official journal of the Biomedical Engineering Society, publishing original articles in the major fields of bioengineering and biomedical engineering. The Annals is an interdisciplinary and international journal with the aim to highlight integrated approaches to the solutions of biological and biomedical problems.