售后市场头盔附加装置在跌落测试期间降低撞击力加速度的能力。
The Ability of an Aftermarket Helmet Add-On Device to Reduce Impact-Force Accelerations During Drop Tests.
作者信息
Breedlove Katherine M, Breedlove Evan, Nauman Eric, Bowman Thomas G, Lininger Monica R
机构信息
University of Delaware, Newark.
Purdue University, West Lafayette, IN.
出版信息
J Athl Train. 2017 Sep;52(9):802-808. doi: 10.4085/1062-6050-52.6.01. Epub 2017 Aug 3.
CONTEXT
The Guardian Cap provides a soft covering intended to mitigate energy transfer to the head during football contact. Yet how well it attenuates impacts remains unknown.
OBJECTIVE
To evaluate the changes in the Gadd Severity Index (GSI) and linear acceleration during drop tests on helmeted headforms with or without Guardian Caps.
DESIGN
Crossover study.
SETTING
Laboratory.
PATIENTS OR OTHER PARTICIPANTS
Nine new football helmets sent directly from the manufacturer.
INTERVENTION(S): We dropped the helmets at 3 velocities on 6 helmet locations (front, side, right front boss, top, rear right boss, and rear) as prescribed by the National Operating Committee on Standards for Athletic Equipment. Helmets were tested with facemasks in place but no Guardian Cap and then retested with the facemasks in place and the Guardian Cap affixed.
MAIN OUTCOME MEASURE(S): The GSI scores and linear accelerations measured in g forces.
RESULTS
For the GSI, we found a significant interaction among drop location, Guardian Cap presence, and helmet brand at the high velocity (F = 3.01, P = .005) but not at the low (F = 0.84, P = .50) or medium (F = 1.29, P = .26) velocities. Similarly for linear accelerations, we found a significant interaction among drop location, Guardian Cap presence, and helmet brand at the high velocity (F = 3.01, P = .002, ω = 0.05) but not at the low (F = 0.49, P = .89, ω < 0.01, 1-β = 0.16) or medium (F = 2.43, P = .06, ω < 0.01, 1-β = 0.68) velocities.
CONCLUSIONS
The Guardian Cap failed to significantly improve the helmets' ability to mitigate impact forces at most locations. Limited evidence indicates how a reduction in GSI would provide clinically relevant benefits beyond reducing the risk of skull fracture or a similar catastrophic event.
背景
护头帽提供了一种柔软的覆盖物,旨在减轻足球比赛中头部受到撞击时的能量传递。然而,其减震效果究竟如何仍不清楚。
目的
评估在有或没有护头帽的情况下,对佩戴头盔的头模进行跌落测试时加德严重度指数(GSI)和线性加速度的变化。
设计
交叉研究。
地点
实验室。
患者或其他参与者
直接从制造商处送来的9个新的橄榄球头盔。
干预措施
按照美国国家运动器材标准操作委员会的规定,我们以3种速度在头盔的6个位置(前部、侧面、右前凸起、顶部、右后凸起和后部)进行头盔跌落测试。头盔在佩戴面罩但未戴护头帽的情况下进行测试,然后在佩戴面罩且固定护头帽的情况下重新测试。
主要观察指标
以重力加速度测量的GSI得分和线性加速度。
结果
对于GSI,我们发现在高速时(F = 3.01,P = 0.005),跌落位置、是否存在护头帽和头盔品牌之间存在显著交互作用,但在低速时(F = 0.84,P = 0.50)或中速时(F = 1.29,P = 0.26)不存在。同样,对于线性加速度,我们发现在高速时(F = 3.01,P = 0.002,ω = 0.05),跌落位置、是否存在护头帽和头盔品牌之间存在显著交互作用,但在低速时(F = 0.49,P = 0.89,ω < 0.01,1-β = 0.16)或中速时(F = 2.43,P = 0.06,ω < 0.01,1-β = 0.68)不存在。
结论
护头帽未能在大多数位置显著提高头盔减轻冲击力的能力。有限的证据表明,GSI的降低除了降低颅骨骨折或类似灾难性事件的风险外,如何能带来临床相关益处。
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