Thoracolumbar spine fractures in frontal impact crashes

wbldb

Pintar, Frank A.^1,2; Yoganandan, Narayan^1,2; Maiman, Dennis J.^1,2; Scarboro, Mark²; Rudd, Rodney W.³

Thoracolumbar spine fractures in frontal impact crashes

56th Annual Proceedings, Association for the Advancement of Automotive Medicine (AAAM)

Affiliations

¹Medical College of Wisconsin, Milwaukee, Wisconsin

²VA Medical Center, Milwaukee, Wisconsin

³National Highway Traffic Safety Administration, US Department of Transportation, Washington DC
Abstract

There is currently no injury assessment for thoracic or lumbar spine fractures in the motor vehicle crash standards throughout the world. Compression-related thoracolumbar fractures are occurring in frontal impacts and yet the mechanism of injury is poorly understood. The objective of this investigation was to characterize these injuries using real world crash data from the US-DOT-NHTSA NASS-CDS and CIREN databases. Thoracic and lumbar AIS vertebral body fracture codes were searched for in the two databases. The NASS database was used to characterize population trends as a function of crash year and vehicle model year. The CIREN database was used to examine a case series in more detail. From the NASS database there were 2000- 4000 occupants in frontal impacts with thoracic and lumbar vertebral body fractures per crash year. There was an increasing trend in incidence rate of thoracolumbar fractures in frontal impact crashes as a function of vehicle model year from 1986 to 2008; this was not the case for other crash types. From the CIREN database, the thoracolumbar spine was most commonly fractured at either the T12 or L1 level. Major, burst type fractures occurred predominantly at T12, L1 or L5; wedge fractures were most common at L1. Most CIREN occupants were belted; there were slightly more females involved; they were almost all in bucket seats; impact location occurred approximately half the time on the road and half off the road. The type of object struck also seemed to have some influence on fractured spine level, suggesting that the crash deceleration pulse may be influential in the type of compression vector that migrates up the spinal column. Future biomechanical studies are required to define mechanistically how these fractures are influenced by these many factors.
Links

PubMed: 23169137

PubMedCentral: PMC3503432

Cited Works (4)

Year	Entry
1998	The Abbreviated Injury Scale-1990 Revision, Update 1998. Des Plaines, IL: Association for the Advancement of Automotive Medicine (AAAM); 1998.
1973	Begeman PC, King AI, Prasad P. Spinal loads resulting from -Gx acceleration. In: Proceedings of the 17th Stapp Car Crash Conference. November 17-19, 1973; Coronado, CA. Warrendale, PA: Society of Automotive Engineers:343-360. SAE 730977.
2006	Richards D, Carhart M, Raasch C, Pierce J, Steffey D, Ostarello A. Incidence of thoracic and lumbar spine injuries for restrained occupants in frontal collisions. In: 50th Annual Proceedings, Association for the Advancement of Automotive Medicine (AAAM). October 16-18, 2006; Chicago, IL.125-139.
2009	Wang MC, Pintar F, Yoganandan N, Maiman DJ. The continued burden of spine fractures after motor vehicle crashes. J Neurosurg Spine. February 2009;10(2):86-92.

Cited By (21)

Year	Entry
2015	Arun MWJ, Maiman DJ, Yoganandan N. Thoracic spine injury biomechanics. In: Yoganandan N, Nahum AM, Melvin JW, eds. Accidental Injury: Biomechanics and Prevention. 3rd ed. New York: Springer; 2015:435-450.
2013	Yoganandan N, Stadter GW, Halloway DE, Pintar FA. Injury patterns to other body regions and load vectors in nearside impact occupants with and without shoulder injuries. In: 57th Annual Proceedings, Association for the Advancement of Automotive Medicine (AAAM). September 22-25, 2013; Quebec City, QC.133-143.
2013	Yoganandan N, Arun MWJ, Stemper BD, Pintar FA, Maiman DJ. Biomechanics of human thoracolumbar spinal column trauma from vertical impact loading. In: 57th Annual Proceedings, Association for the Advancement of Automotive Medicine (AAAM). September 22-25, 2013; Quebec City, QC.155-166.
2013	DeRosia JJ, Pintar FA, Halloway DE, Meyer MA, Yoganandan N. Seat pan loading differences using a new test apparatus. In: Proceedings of the 23rd International Technical Conference on the Enhanced Safety of Vehicles (ESV). May 27-30, 2013; Seoul, South Korea.
2012	Pintar FA, Yoganandan N, Moore J. Spine and pelvis fractures in axial Z-acceleration. In: Proceedings of the 40th International Workshop on Human Subjects for Biomechanical Research. 2012.
2013	Adolph T, Wisch M, Eggers A, Johannsen H, Cuerden R, Carroll J, Hynd D, Sander U. Analyses of thoracic and lumbar spine injuries in frontal impacts. In: Proceedings of the 2013 International IRCOBI Conference on the Biomechanics of Injury. September 11-13, 2013; Gothenburg, Sweden.91-102.
2016	Jakobsson L, Björklund M, Westerlund A. Thoracolumbar spine injuries in car crashes. In: Proceedings of the 2016 International IRCOBI Conference on the Biomechanics of Injury. September 14-16, 2016; Malaga, Spain.101-112.
2020	Draper D, Shah A, Peldschus S, Stemper BD. Initial validation of a human body model lumbar spine using dynamic compression. In: Proceedings of the 2020 International IRCOBI Conference on the Biomechanics of Injury. 2020; Munich, Germany.213-214.
2020	Mroz K, Östling M, Richardson R, Kerrigan J, Forman J, Gepner B, Lubbe N, Pipkorn B. Effect of seat and seat belt characteristics on the lumbar spine and pelvis loading of the safer human body model in reclined postures. In: Proceedings of the 2020 International IRCOBI Conference on the Biomechanics of Injury. 2020; Munich, Germany.470-486.
2020	Tushak SK, Richardson RE, Pipkorn B, Hallman JJ, Gepner BD, Forman JL, Kerrigan JR. A method for defining failure tolerance of the lumbar spine in combined loading. In: Proceedings of the 2020 International IRCOBI Conference on the Biomechanics of Injury. 2020; Munich, Germany.823-824.
2021	Shibahara T, Nishimoto T, Motomura T, Matsumoto H, Asahi R, Sugimoto S, Fukushima M. Analysis of the effect of seated posture on vertebral compression fractures in frontal crashes using HBMs. In: Proceedings of the 2021 International IRCOBI Conference on the Biomechanics of Injury. September 8-10, 2021; Online.380-389.
2022	Tushak SK, Gepner BD, Pipkorn B, Kerrigan JR. Evaluation of the GHBMC lumbar spine in sub-injurious and injurious loading. In: Proceedings of the 2022 International IRCOBI Conference on the Biomechanics of Injury. September 14-16, 2022; Porto, Portugal.866-883.
2022	Rieger LK, Draper D, Shah A, Peldschus S, Stemper BD. Subject-specific lumbar spine finite element model creation and validation using dynamic compression. In: Proceedings of the 2022 International IRCOBI Conference on the Biomechanics of Injury. September 14-16, 2022; Porto, Portugal.886-887.
2023	Tushak SK, Gepner BD, Pipkorn B, Kerrigan JR. GHBMC-M50-specific lumbar spine fracture risk prediction considering two different metrics. In: Proceedings of the 2023 International IRCOBI Conference on the Biomechanics of Injury. September 13-165, 2023; Cambridge, United Kingdom.586-588.
2023	Iraeus J, Poojary YN, Jaber L, John J, Davidsson J. A new open-source finite element lumbar spine model, its tuning and validation, and development of a tissue-based injury risk function for compression fractures. In: Proceedings of the 2023 International IRCOBI Conference on the Biomechanics of Injury. September 13-165, 2023; Cambridge, United Kingdom.1048-1072.
2018	Yoganandan N, Zhang J, Moore J, Pintar F, Baisden JL. Lumbar spinal column injuries and loads from inferior‐to‐superior impact: applications to military and automotive environments. In: Proceedings of the 2018 International IRCOBI Asia Conference on the Biomechanics of Injury. April 25-28, 2018; Lonavala, India.70-71.
2020	Shaikh J, Thathia H, Lubbe N. Lumbar spine injuries in motor vehicle crashes. In: Proceedings of the 2020 International IRCOBI Asia Conference on the Biomechanics of Injury. 2020; Beijing, China.37-40.
2018	Ye X, Jones D, Gaewsky J, Miller L, Stitzel J, Weaver A. Numerical analysis of driver thoracolumbar spine response in frontal crash reconstruction. In: Proceedings of the 14th Ohio State University Injury Biomechanics Symposium. May 20-22, 2018; Columbus, OH.
2017	Arun MWJ, Hadagali P, Driesslein K, Curry W, Yoganandan N, Pintar FA. Biomechanics of lumbar motion-segments in dynamic compression. Stapp Car Crash J. November 2017;61:1-25. SAE 2017-22-0001.
2022	Tushak SK, Donlon JP, Gepner BD, Chebbi A, Pipkorn B, Hallman JJ, Forman JL, Kerrigan JR. Failure tolerance of the human lumbar spine in dynamic combined compression and flexion loading. J Biomech. April 2022;135:111051.
2022	Draper D. Validation of Human Body Model Lumbar Spine Performance for Use in New Seating Positions [PhD thesis]. Ludwig Maximilian University of Munich; 2022.