The contribution of pre-impact spine posture on human body model response in whole-body side impact

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Poulard, David¹; Subit, Damien¹; Donlon, John-Paul¹; Lessley, David J.¹; Kim, Taewung¹; Park, Gwansik¹; Kent, Richard W.¹

The contribution of pre-impact spine posture on human body model response in whole-body side impact

Stapp Car Crash J. November 2014;58:385-422

©2014 The Stapp Association

Affiliations

¹University of Virginia - Center for Applied Biomechanics
Abstract and keywords

The objective of the study was to analyze independently the contribution of pre-impact spine posture on impact response by subjecting a finite element human body model (HBM) to whole-body, lateral impacts. Seven postured models were created from the original HBM: one matching the standard driving posture and six matching pre-impact posture measured for each of six subjects tested in previously published experiments. The same measurements as those obtained during the experiments were calculated from the simulations, and biofidelity metrics based on signals correlation were established to compare the response of HBM to that of the cadavers. HBM responses showed good correlation with the subject response for the reaction forces, the rib strain (correlation score=0.8) and the overall kinematics. The pre-impact posture was found to greatly alter the reaction forces, deflections and the strain time histories mainly in terms of time delay. By modifying only the posture of HBM, the variability in the impact response was found to be equivalent to that observed in the experiments performed with cadavers with different anthropometries. The patterns observed in the responses of the postured HBM indicate that the inclination of the spine in the frontal plane plays a major role. The postured HBM sustained from 2 to 5 bone fractures, including the scapula in some cases, confirming that the pre-impact posture influences the injury outcome predicted by the simulation.

Keywords: finite element, simulation, thorax, shoulder, CORA, THUMS

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Year	Entry
2016	Subit D, Möhler F, Wass J, Pipkorn B. Robustness of principal and longitudinal strains as fracture predictors in side impact. In: Proceedings of the 2016 International IRCOBI Conference on the Biomechanics of Injury. September 14-16, 2016; Malaga, Spain.556-569.
2018	Piqueras‐Lorente A, Iraeus J, Lorente AI, López‐Valdés FJ, Juste‐Lorente Ó, Maza‐Frechín M, Pipkorn B. Kinematic assessment of subject personification of human body models (THUMS). In: Proceedings of the 2018 International IRCOBI Conference on the Biomechanics of Injury. September 12-14, 2018; Athens, Greece.191-206.
2024	Leledakis A. Heterogeneity in Car Occupant Safety: Using Numerical Simulations to Address Real-World Safety [PhD thesis]. Götenburg, Sweden: Chalmers University of Technology; 2024.
2019	Donlon JP. Restraint Biomechanics in Frontal Impacts With Inboard-Leaning Occupants [Master's thesis]. Charlottesville, VA: University of Virginia; August 2019.