Biofidelity and Limitations of Instrumented Mouthguard Systems for Assessment of Rigid Body Head Kinematics

IF 3 2区 医学 Q3 ENGINEERING, BIOMEDICAL
Mitchell Z. Abrams, Jay Venkatraman, Donald Sherman, Maria Ortiz-Paparoni, Jefferson R. Bercaw, Robert E. MacDonald, Jason Kait, Elizabeth D. Dimbath, Derek Y. Pang, Alexandra Gray, Jason F. Luck, Cynthia A. Bir, Cameron R. Bass
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Abstract

Instrumented mouthguard systems (iMGs) are commonly used to study rigid body head kinematics across a variety of athletic environments. Previous work has found good fidelity for iMGs rigidly fixed to anthropomorphic test device (ATD) headforms when compared to reference systems, but few validation studies have focused on iMG performance in human cadaver heads. Here, we examine the performance of two boil-and-bite style iMGs in helmeted cadaver heads. Three unembalmed human cadaver heads were fitted with two instrumented boil-and-bite mouthguards [Prevent Biometrics and Diversified Technical Systems (DTS)] per manufacturer instructions. Reference sensors were rigidly fixed to each specimen. Specimens were fitted with a Riddell SpeedFlex American football helmet and impacted with a rigid impactor at three velocities and locations. All impact kinematics were compared at the head center of gravity. The Prevent iMG performed comparably to the reference system up to ~ 60 g in linear acceleration, but overall had poor correlation (CCC = 0.39). Prevent iMG angular velocity and BrIC generally well correlated with the reference, while underestimating HIC and overestimating HIC duration. The DTS iMG consistently overestimated the reference across all measures, with linear acceleration error ranging from 10 to 66%, and angular acceleration errors greater than 300%. Neither iMG demonstrated consistent agreement with the reference system. While iMG validation efforts have utilized ATD testing, this study highlights the need for cadaver testing and validation of devices intended for use in-vivo, particularly when considering realistic (non-idealized) sensor-skull coupling, when accounting for interactions with the mandible and when subject-specific anatomy may affect device performance.

Abstract Image

Abstract Image

用于评估硬体头部运动学的仪器护齿系统的生物保真度和局限性。
带仪器的护齿系统(iMG)通常用于研究各种运动环境下的刚体头部运动学。之前的研究发现,与参考系统相比,刚性固定在拟人测试装置(ATD)头形上的 iMG 具有良好的保真度,但很少有验证研究关注 iMG 在人体头部的性能。在此,我们研究了两种沸腾咬合式 iMG 在戴头盔的尸体头部的性能。按照制造商的说明,在三个未经平衡的人体尸体头部安装了两个仪器式沸腾咬合护齿[Prevent Biometrics 和 Diversified Technical Systems (DTS)]。参考传感器被刚性固定在每个标本上。为试样安装 Riddell SpeedFlex 美式足球头盔,并用刚性撞击器以三种速度和位置进行撞击。所有撞击运动学均以头部重心进行比较。Prevent iMG 的线性加速度在约 60 g 时与参考系统的表现相当,但总体相关性较差(CCC = 0.39)。Prevent iMG 角速度和 BrIC 与参照系统的相关性一般较好,但低估了 HIC,高估了 HIC 持续时间。在所有测量中,DTS iMG 始终高估了参考值,线性加速度误差在 10% 到 66% 之间,角加速度误差超过 300%。两个 iMG 都没有表现出与参考系统一致。虽然 iMG 验证工作采用了 ATD 测试,但本研究强调了对拟在体内使用的设备进行尸体测试和验证的必要性,特别是在考虑现实(非理想化)传感器-颅骨耦合、考虑与下颌骨的相互作用以及受试者特定解剖结构可能影响设备性能时。
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
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.
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