• Zhen Tang, Wenbing Tu, Gang Zhang, Yubin Chen, Tao Lei, and Yinghui Tan.
• Department of Oral and Maxillofacial Surgery, Xinqiao Hospital, Third Military Medical University, Chongqing 400037, PR China. tangzhen1999@sohu.com
• Injury. 2012 May 1;43(5):660-5.

ObjectiveDue to the complications arising from gunshot wounds to the maxillofacial region, traditional models of gunshot wounds cannot meet our research needs. In this study, we established a finite element model and conducted preliminary simulation and analysis to determine the injury mechanism and degree of damage for gunshot wounds to the human mandible.MethodsBased on a previously developed modelling method that used animal experiments and internal parameters, digital computed tomography data for the human mandible were used to establish a three-dimensional finite element model of the human mandible. The mechanism by which a gunshot injures the mandible was dynamically simulated under different shot conditions. First, the residual velocities of the shootings using different projectiles at varying entry angles and impact velocities were calculated. Second, the energy losses of the projectiles and the rates of energy loss after exiting the mandible were calculated. Finally, the data were compared and analysed.ResultsThe dynamic processes involved in gunshot wounds to the human mandible were successfully simulated using two projectiles, three impact velocities, and three entry angles. The stress distributions in different parts of mandible after injury were also simulated. Based on the computation and analysis of the modelling data, we found that the injury severity of the mandible and the injury efficiency of the projectiles differ under different injury conditions.ConclusionsThe finite element model has many advantages for the analysis of ballistic wounds, and is expected to become an improved model for studying maxillofacial gunshot wounds.Copyright © 2011 Elsevier Ltd. All rights reserved.

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