Comparison of Adult Female and Male PMHS Pelvis and Lumbar Response to Underbody Blast.

Q2 Medicine
Stapp car crash journal Pub Date : 2024-06-01 Epub Date: 2024-04-16 DOI:10.4271/2023-22-0003
Hollie Pietsch, Danielle Cristino, Kerry Danelson, John Bolte, Matthew Mason, Andrew Kemper, John Cavanaugh, Warren Hardy
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引用次数: 0

Abstract

The goal of this study was to gather and compare kinematic response and injury data on both female and male whole-body Post-mortem Human Surrogates (PMHS) responses to Underbody Blast (UBB) loading. Midsized males (50th percentile, MM) have historically been most used in biomechanical testing and were the focus of the Warrior Injury Assessment Manikin (WIAMan) program, thus this population subgroup was selected to be the baseline for female comparison. Both small female (5th percentile, SF) and large female (75th percentile, LF) PMHS were included in the test series to attempt to discern whether differences between male and female responses were predominantly driven by sex or size. Eleven tests, using 20 whole-body PMHS, were conducted by the research team. Preparation of the rig and execution of the tests took place at the Aberdeen Proving Grounds (APG) in Aberdeen, MD. Two PMHS were used in each test. The Accelerative Loading Fixture (ALF) version 2, located at APG's Bear Point range was used for all male and female whole-body tests in this series. The ALF was an outdoor test rig that was driven by a buried explosive charge, to accelerate a platform holding two symmetrically mounted seats. The platform was designed as a large, rigid frame with a deformable center section that could be tuned to simulate the floor deformation of a vehicle during a UBB event. PMHS were restrained with a 5-point harness, common in military vehicle seats. Six-degree-of-freedom motion blocks were fixed to L3, the sacrum, and the left and right iliac wings. A three-degree-of freedom block was fixed to T12. Strain gages were placed on L4 and multiple locations on the pelvis. Accelerometers on the floor and seat of the ALF provided input data for each PMHS' feet and pelvis. Time histories and mean peak responses in z-axis acceleration were similar among the three PMHS groups in this body region. Injury outcomes were different and seemed to be influenced by both sex and size contributions. Small females incurred pelvis injuries in absence of lumbar injures. Midsized males had lumbar vertebral body fractures without pelvis injuries. And large females with injuries had both pelvis and lumbar VB fractures. This study provides evidence supporting the need for female biomechanical testing to generate female response and injury thresholds. Without the inclusion of female PMHS, the differences in the injury patterns between the small female and midsized male groups would not have been recognized. Standard scaling methods assume equivalent injury patterns between the experimental and scaled data. In this study, small female damage occurred in a different anatomical structure than for the midsized males. This is an important discovery for the development of anthropomorphic test devices, injury criteria, and injury mitigating technologies. The clear separation of small female damage results, in combination with seat speeds, suggest that the small female pelvis injury threshold in UBB events lies between 4 - 5 m/s seat speed. No inference can be made about the small female lumbar threshold, other than it is likely at higher speeds and/or over longer duration. Male lumbar spine damage occurred in both the higher- and lower lower-rate tests, indicating the injury threshold would be below the seat pulses tested in these experiments. Large females exhibited injury patterns that reflected both the small female and midsized male groups - with damaged PMHS having fractures in both pelvis and lumbar, and in both higher- and lower- rate tests. The difference in damage patterns between the sex and size groups should be considered in the development of injury mitigation strategies to protect across the full population.

比较成年女性和男性 PMHS 骨盆和腰部对体下冲击波的反应。
本研究的目的是收集和比较女性和男性死后人体替代物(PMHS)对躯体下部爆破(UBB)负载的运动反应和损伤数据。中等身材的男性(第 50 百分位数,MM)历来最常用于生物力学测试,也是勇士损伤评估人体模型(WIAMan)计划的重点,因此这一人口亚群被选为女性比较的基线。小型女性(第 5 百分位数,SF)和大型女性(第 75 百分位数,LF)PMHS 均被纳入测试系列,以试图分辨男性和女性的反应差异是否主要由性别或体型造成。研究小组使用 20 个全身 PMHS 进行了 11 次测试。钻机的准备和测试的执行都在马里兰州阿伯丁的阿伯丁试验场(APG)进行。每次测试使用两个 PMHS。加速加载夹具(ALF)版本 2 位于阿伯丁试验场的熊点靶场,用于本系列的所有男性和女性全身试验。ALF 是一个室外试验台,由埋在地下的炸药驱动,对一个容纳两个对称安装的座椅的平台进行加速。该平台被设计成一个大型刚性框架,其中心部分可变形,可进行调整以模拟 UBB 事件中车辆地板的变形。PMHS 使用军用车辆座椅常用的 5 点式安全带进行约束。六自由度运动块固定在 L3、骶骨和左右髂骨翼上。一个三自由度运动块固定在 T12 上。应变计被放置在 L4 和骨盆的多个位置。ALF 地面和座椅上的加速度计为每个 PMHS 的脚部和骨盆提供了输入数据。三组 PMHS 在该身体区域 Z 轴加速度的时间历程和平均峰值响应相似。受伤结果各不相同,似乎受到性别和体型的影响。身材矮小的女性骨盆受伤,但腰部没有受伤。中等身材的男性有腰椎体骨折,但没有骨盆受伤。而体型较大的女性则同时有骨盆和腰椎椎体骨折。这项研究提供的证据表明,有必要进行女性生物力学测试,以得出女性的反应和受伤阈值。如果不纳入女性 PMHS,小型女性组和中型男性组之间的损伤模式差异就不会被认识到。标准缩放方法假定实验数据和缩放数据之间的损伤模式相同。在这项研究中,与中等身材男性相比,身材矮小女性的损伤发生在不同的解剖结构中。这对于开发拟人测试装置、伤害标准和伤害缓解技术来说是一个重要发现。小型女性损伤结果与座椅速度的明显分离表明,在 UBB 事件中,小型女性骨盆损伤阈值在 4 - 5 米/秒的座椅速度之间。至于女性腰椎损伤的临界值,除了可能是在更高的速度和/或更长的持续时间外,还无法做出其他推断。在较高速度和较低速度的测试中都出现了男性腰椎损伤,这表明损伤阈值低于这些实验中测试的座椅脉冲。大型雌性动物的损伤模式反映了小型雌性动物和中型雄性动物的损伤模式--受损的 PMHS 在骨盆和腰部都有骨折,在较高和较低速率的测试中都是如此。在制定伤害缓解策略以保护所有人群时,应考虑性别和体型组之间的伤害模式差异。
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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Stapp car crash journal
Stapp car crash journal Medicine-Medicine (all)
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3.20
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