通过特定人群的材料模型和肋骨横截面几何形状,对年轻中等身材男性的孤立肋骨反应和断裂进行预测。

Q2 Medicine Stapp car crash journal Pub Date : 2024-10-29 DOI:10.4271/2024-22-0005
Miguel A Corrales, Sven Holcombe, Amanda M Agnew, Yun-Seok Kang, Duane S Cronin
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引用次数: 0

摘要

在车祸中,胸廓损伤仍然是造成死亡的主要原因。虽然人体模型可用于研究胸部对撞击的响应,但孤立的肋骨模型还无法同时预测特定年龄和性别的力位移响应和骨折位置,而这是开发能够准确预测损伤响应的人体胸部模型的关键一步。最近在构成模型方面取得的进展,以及对特定年龄和性别的材料特性、横截面积和皮质骨厚度分布的量化,为改进肋骨计算模型提供了机会。在本研究中,改进的皮质和小梁骨构成模型采用了特定年龄的材料特性、特定年龄和性别的肋骨横截面积人口数据以及皮质骨厚度分布,并将其应用于当代人体模型中孤立的第 6 根肋骨。对增强型肋骨模型进行了前后加载模拟,以便与特定年龄和性别(23 名中等身材男性,年龄范围为 22 至 57 岁)的人群力-位移响应和骨折位置实验进行比较。事实证明,改进后的构成模型采用了特定年龄的材料特性,对预测肋骨破坏力和位移至关重要,而改进后的皮质骨厚度分布和横截面积则改善了骨折位置预测。增强的中青年男性第 6 肋骨模型能够预测中青年男性第 6 肋骨的实验力-位移响应和断裂位置(高估了 35% 的断裂位移,低估了 8% 的断裂力,但都在±1 SD 范围内)。本研究的结果可以整合到全身模型中,从而提高胸部损伤预测能力。
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Isolated Rib Response and Fracture Prediction for Young Mid-Size Male, Enabled by Population Specific Material Models and Rib Cross-Sectional Geometry.

Thorax injury remains a primary contributor to mortality in car crash scenarios. Although human body models can be used to investigate thorax response to impact, isolated rib models have not been able to predict age- and sex-specific force-displacement response and fracture location simultaneously, which is a critical step towards developing human thorax models able to accurately predict injury response. Recent advancements in constitutive models and quantification of age- and sex-specific material properties, cross-sectional area, and cortical bone thickness distribution offer opportunities to improve rib computational models. In the present study, improved cortical and trabecular bone constitutive models populated with age-specific material properties, age- and sex-specific population data on rib cross-sectional area, and cortical bone thickness distribution were implemented into an isolated 6th rib from a contemporary human body model. The enhanced rib model was simulated in anterior-posterior loading for comparison to experimental age- and sex-specific (twenty-three mid-size males, age range of 22- to 57-year-old) population force-displacement response and fracture location. The improved constitutive models, populated with age-specific material properties, proved critical to predict the rib failure force and displacement, while the improved cortical bone thickness distribution and cross-sectional area improved the fracture location prediction. The enhanced young mid-size male 6th rib model was able to predict young mid-size male 6th rib experimental force-displacement response and fracture location (overpredicted the displacement at failure by 35% and underpredicted the force at failure by 8% but within ±1 SD). The results of the present study can be integrated into full body models to potentially improve thorax injury prediction capabilities.

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Stapp car crash journal
Stapp car crash journal Medicine-Medicine (all)
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