Abstract
Terminal ballistics concerns the science of projectile behaviour within a target and includes wound ballistics that considers what happens when a projectile strikes a living being. A number of soft tissue ballistic simulants have been used to assess the damage to tissue caused by projectiles. Standard assessment of these materials, such as ballistic soap or ordnance gelatine, requires the block to be opened or that a mould to be made to visualize the wound track. This is time consuming and may affect the accuracy of the findings especially if the block dries and alters shape during the process. Therefore, accurate numerical analysis of the permanent or temporary cavity is limited. Computed tomography (CT) potentially offers a quicker non-invasive analysis tool for this task. Four commercially purchased ballistic glycerine soap blocks were used. Each had a single firearm discharged into it from a distance of approximately 15 cm using both gunshot and shotgun projectiles. After discharge, each block was imaged by a modern 16 slice multi-detector CT scanner and analysed using 3-D reconstruction software. Using the anterior–posterior and lateral scout views and the multi-plane reconstructed images, it was possible to visualize the temporary cavity, as well as the fragmentation and dispersal pattern of the projectiles, the distance travelled and angle of dispersal within the block of each projectile or fragment. A virtual cast of the temporary cavity can be also be made. Multi-detector CT with 3-D analysis software is shown to create a reliable permanent record of the projectile path allowing rapid analysis of different firearms and projectiles.
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References
Jussila J (2005) Wound ballistic simulation: assessment of the legitimacy of law enforcement firearms ammunition by means of wound ballistic simulation. Academic dissertation, University of Helsinki
Sellier G, Kneubuehl BP (eds) (1994) Wound ballistics and the scientific background. Elsevier, Amsterdam
Perdekamp MG, Vennemann B, Mattern D, Serr A, Pollak S (2005) Tissue defect at the gunshot entrance wound: what happens to the skin? Int J Leg Med 119:217–222
Korac Z, Kelenc D, Hancevic J, Baskot A, Mikulic D (2002) The application of computed tomography in the analysis of permanent cavity: a new method in terminal ballistics. Acta Clin Croat 41:205–209
Korac Z, Kelenc D, Baskot A, Mikulic D, Hancevic J (2001) Substitute ellipse of the permanent cavity in gelatine blocks and debridement of gunshot wounds. Mil Med 166:689–694
Karger B, Puskas Z, Ruwald B, Teige K, Schuirer G (1998) Morphological findings in the brain after experimental gunshots using radiology, pathology and histology. Int J Leg Med 111:314–319
Oehmichen M, Meissner C, Konig HG, Gehl H-B (2004) Gunshot injuries to the head and brain caused by low-velocity handguns and rifles. A review. Forensic Sci Int 146:111–120
Thali MJ, Kneubuehl BP, Vock P, Allmen G, Dirnhofer R (2002) High-speed documented experimental gunshot to a skull-brain model and radiologic virtual autopsy. Am J Forensic Med Pathol 23:223–228
Acknowledgements
We wish to thank Alliance Medical (Upton, Oxfordshire, UK) for providing the mobile CT scanner.
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Rutty, G.N., Boyce, P., Robinson, C.E. et al. The role of computed tomography in terminal ballistic analysis. Int J Legal Med 122, 1–5 (2008). https://doi.org/10.1007/s00414-006-0145-3
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DOI: https://doi.org/10.1007/s00414-006-0145-3