A method for the experimental investigation of acceleration as a mechanism of aortic injury

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Forman, Jason¹; Kent, Richard¹; Bolton, James¹; Evans, Jay¹

A method for the experimental investigation of acceleration as a mechanism of aortic injury

Proceedings of the SAE World Congress & Exhibition

©2005 SAE International

Affiliations

¹University of Virginia
Abstract

Rupture of the thoracic aorta is a leading cause of rapid fatality in automobile crashes, but the mechanism of this injury remains unknown. One commonly postulated mechanism is a differential motion of the aortic arch relative to the heart and its neighboring vessels caused by high-magnitude acceleration of the thorax. Recent Indy car crash data show, however, that humans can withstand accelerations exceeding 100 g with no injury to the thoracic vasculature. This paper presents a method to investigate the efficacy of acceleration as an aortic injury mechanism using high-acceleration, low chest deflection sled tests. The repeatability and predictability of the test method was evaluated using two Hybrid III tests and two tests with cadaver subjects. The cadaver tests resulted in sustained mid-spine accelerations of up to 80 g for 20 ms with peak midspine accelerations of up to 175 g, and maximum chest deflections lower than 11% of the total chest depth. Transient increases in intra-aortic pressure up to 177 kPa were measured. No macroscopic injuries to the thoracic aorta resulted from these tests. The method employed proved consistent and repeatable. This method may be appropriate for future investigation of the efficacy of acceleration as a predictor of aortic injury.
Links

DOI: 10.4271/2005-01-0295

SAE: 2005-01-0295

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Cited By (5)

Year	Entry
2009	Arregui-Dalmases C, Del Pozo E, Kindig M, Lopez-Valdes F, Forman J, Kent R. The magnitude, phasing, and attenuation of pressure waves in the aorta during abdominal belt loading. In: Proceedings of the 2009 International IRCOBI Conference on the Biomechanics of Impact. September 9-11, 2009; York, UK.69-83.
2016	Otte D, Facius T, Klintschar M, Brand S. Investigations and injury mechanisms of aortic ruptures among vehicle occupants and vulnerable road users over time. In: Proceedings of the 2016 International IRCOBI Conference on the Biomechanics of Injury. September 14-16, 2016; Malaga, Spain.870-887.
2007	Lee S-H, Kent R. Blood flow and fluid-structure interactions in the human aorta during traumatic rupture conditions. Stapp Car Crash J. 2007;51:211-233. SAE 2007-22-0010.
2008	Forman J, Stacey S, Evans J, Kent R. Posterior acceleration as a mechanism of blunt traumatic injury of the aorta. J Biomech. 2008;41(6):1359-1364.
2009	Stacey S, Forman J, Woods W, Arbogast K, Kent R. Pediatric abdominal injury patterns generated by lap belt loading. J Trauma. 2009;67(6):1278-1283.