Forensic medical characteristics of firearm exit wounds in cases with armour protection

•Effect of body armor on firearm exit wounds is explained via detailed experiments.•Simulated test firings on animal carcasses with tissue anatomy nearly similar to humans.•Study findings will be useful in cases of difficult interpretation of firearm wounds.•Detailing with stereoscopic, spectroscopi...

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Bibliographic Details
Published in:Legal medicine (Tokyo, Japan) Japan), 2022-02, Vol.54, p.102002-102002, Article 102002
Main Authors: Kislov, M.A., Chauhan, M., Leonov, S.V., Pigolkin, Yu I.
Format: Article
Language:English
Subjects:
Animals
Autopsy
Body armour
Cadaver
Deformed projectile
Firearm injuries
Firearms
Forensic Ballistics
Male
Simulation studies
Spectroscopy
Swine
Wound ballistics
Wounds, Gunshot
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Summary:•Effect of body armor on firearm exit wounds is explained via detailed experiments.•Simulated test firings on animal carcasses with tissue anatomy nearly similar to humans.•Study findings will be useful in cases of difficult interpretation of firearm wounds.•Detailing with stereoscopic, spectroscopic and high quality video-cameras.•Lucid collection of vivid photographs of autopsy and experimental findings. The very limited literature about the characteristic morphology of the firearm ammunition wounds in the body armored victims led authors to conduct an experimental study to understand this issue of great forensic and medico-legal importance. An autopsy of a male sniper was fraught with a challenge to differentiate between a firearm ammunition entry and exit wound. He was wearing body armour when shot at during a hostage rescue operation. The study was conducted to standardize the findings and answer the queries in such cases of forearms with inherent legal implications. The modifying effect of the clothing and the armour on the firearm injuries in humans was studied by test firings on animal (pig) cadaver tissues, which has closest simulation to the human body tissues. These firings were preceded by X-ray fluorescence, and followed by stereoscopic and spectroscopic examinations. All the events were recorded by the high-resolution video camera shoots. An extensive cavitation in the form of a cone shaped crater, and a tissue defect with precipitated edges and patching of the epidermal layers indicated a firearm entry and exit wound, respectively, in victims wearing body armour at the time of the firearm injury.
ISSN:1344-6223
1873-4162
DOI:10.1016/j.legalmed.2021.102002