外壳附加产品如何影响大学橄榄球头盔的性能？

How Shell Add-On Products Influence Varsity Football Helmet Performance?

机构信息

Department of Biomedical Engineering and Mechanics, Virginia Tech, Blacksburg, USA.

Institute for Critical Technology and Applied Science, Virginia Tech, 325 Stanger St., Kelly Hall 120, Blacksburg, VA, 24061, USA.

出版信息

Ann Biomed Eng. 2024 Nov;52(11):2923-2931. doi: 10.1007/s10439-024-03627-5. Epub 2024 Oct 2.

DOI:10.1007/s10439-024-03627-5

PMID:39356379

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11511751/

Abstract

PURPOSE

The study purpose was to investigate the laboratory-based performance of three commercially available shell add-on products under varsity-level impact conditions.

METHODS

Pendulum impact tests were conducted at multiple locations (front, front boss, rear, side) and speeds (3.1, 4.9, 6.4 m/s) using two helmet models. Tests were performed with a single add-on configuration for baseline comparisons and a double add-on configuration to simulate collisions with both players wearing shell add-ons. A linear mixed-effect model was used to evaluate peak linear acceleration (PLA), peak rotational acceleration (PRA), and concussion risk, which was calculated from a bivariate injury risk function, based on shell add-on and test configuration.

RESULTS

All shell add-ons decreased peak head kinematics and injury risk compared to controls, with the Guardian NXT producing the largest reductions (PLA: 7.9%, PRA: 14.1%, Risk: 34.1%) compared to the SAFR Helmet Cover (PLA: 4.5%, PRA: 9.3%, Risk: 24.7%) and Guardian XT (PLA: 3.2%, PRA: 5.0%, Risk: 15.5%). The same trend was observed in the double add-on test configuration. However, the Guardian NXT (PLA: 17.1%; PRA: 11.5%; Risk: 62.8%) and SAFR Helmet Cover (PLA: 12.2%; PRA: 9.1%; Risk: 52.2%) produced larger reductions in peak head kinematics and injury risk than the Guardian XT (PLA: 5.7%, PRA: 2.2%, Risk: 21.8%).

CONCLUSION

In laboratory-based assessments that simulated varsity-level impact conditions, the Guardian NXT was associated with larger reductions in PLA, PRA, and injury risk compared to the SAFR Helmet Cover and Guardian XT. Although shell add-ons can enhance head protection, helmet model selection should be prioritized.

摘要

目的

本研究旨在调查三种市售外壳附加产品在大学水平撞击条件下的实验室性能。

方法

使用两种头盔模型，在多个位置（正面、正面帽檐、背面、侧面）和速度（3.1、4.9、6.4 m/s）下进行摆锤冲击测试。使用单一附加配置进行基线比较，并使用双重附加配置模拟两名佩戴外壳附加产品的球员之间的碰撞。使用线性混合效应模型评估峰值线性加速度（PLA）、峰值旋转加速度（PRA）和脑震荡风险，脑震荡风险是根据双变量损伤风险函数，基于外壳附加产品和测试配置计算得出的。

结果

与对照组相比，所有外壳附加产品均降低了峰值头部运动学和损伤风险，其中 Guardian NXT 相对于 SAFR 头盔罩（PLA：4.5%，PRA：9.3%，风险：24.7%）和 Guardian XT（PLA：3.2%，PRA：5.0%，风险：15.5%）的降幅最大（PLA：7.9%，PRA：14.1%，风险：34.1%）。在双重附加测试配置中也观察到了相同的趋势。然而，Guardian NXT（PLA：17.1%；PRA：11.5%；风险：62.8%）和 SAFR 头盔罩（PLA：12.2%；PRA：9.1%；风险：52.2%）的峰值头部运动学和损伤风险降幅大于 Guardian XT（PLA：5.7%，PRA：2.2%，风险：21.8%）。

结论

在模拟大学水平撞击条件的实验室评估中，与 SAFR 头盔罩和 Guardian XT 相比，Guardian NXT 与 PLA、PRA 和损伤风险的降低幅度更大。尽管外壳附加产品可以增强头部保护，但应优先选择头盔型号。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd7a/11511751/5b99352a7590/10439_2024_3627_Fig1_HTML.jpg

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外壳附加产品如何影响大学橄榄球头盔的性能？

How Shell Add-On Products Influence Varsity Football Helmet Performance?

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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