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International Journal of Legal Medicine
Published in: International Journal of Legal Medicine 5/2016

Open Access 01-09-2016 | Original Article

Comparison of porcine thorax to gelatine blocks for wound ballistics studies

Authors: A. Mabbott, D. J. Carr, S. Champion, C. Malbon

Published in: International Journal of Legal Medicine | Issue 5/2016

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Abstract

Tissue simulants are typically used in ballistic testing as substitutes for biological tissues. Many simulants have been used, with gelatine amongst the most common. While two concentrations of gelatine (10 and 20 %) have been used extensively, no agreed standard exists for the preparation of either. Comparison of ballistic damage produced in both concentrations is lacking. The damage produced in gelatine is also questioned, with regards to what it would mean for specific areas of living tissue. The aim of the work discussed in this paper was to consider how damage caused by selected pistol and rifle ammunition varied in different simulants. Damage to gelatine blocks 10 and 20 % in concentration were tested with 9 mm Luger (9 × 19 full metal jacket; FMJ) rounds, while damage produced by .223 Remington (5.56 × 45 Federal Premium® Tactical® Bonded®) rounds to porcine thorax sections (skin, underlying tissue, ribs, lungs, ribs, underlying tissue, skin; backed by a block of 10 % gelatine) were compared to 10 and 20 % gelatine blocks. Results from the .223 Remington rifle round, which is one that typically expands on impact, revealed depths of penetration in the thorax arrangement were significantly different to 20 % gelatine, but not 10 % gelatine. The level of damage produced in the simulated thoraxes was smaller in scale to that witnessed in both gelatine concentrations, though greater debris was produced in the thoraxes.
Appendix
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Footnotes
1
Gelita UK Ltd., 3 Macclesfield Road, Cheshire CW4 7NF, UK.
 
2
Andrews Quality Meats Ltd., 16 High Street, Highworth, Wiltshire, SN6 7AG, UK.
 
3
Nikon D90, Nikon DX AF-S NIKKOR 18–105 mm lens
 
4
A2204 Oxford Balance; Analytical products Ltd., Oxford, England, OX3 8ST. Developed, manufactured and tested in compliance with ISO 9001.
 
Literature
1.
Fackler ML, Malinowski JA (1985) The wound profile: a visual method for quantifying gunshot wound components. J Trauma 25:522–529CrossRef
2.
Jussila J (2004) Preparing ballistic gelatine— review and proposal for a standard method. Forensic Sci Int 141:91–98CrossRef
3.
Sellier KG, Kneubuehl BP (1994) Wound ballistics and the scientific background. Elsevier, Netherlands
4.
Fackler ML, Surinchak JS, Malinowski JA, Bowen RE (1984) Bullet fragmentation: a major cause of tissue disruption. J Trauma 24:35–39CrossRef
5.
Fackler ML, Surinchak JS, Malinowski JA, Bowen RE (1984) Wounding potential of the Russian AK-74 assault rifle. J Trauma 24:263–266CrossRef
6.
Fackler ML (1987) What’s wrong with the wound ballistics literature, and why. Letterman Army Institute of Research. Presidio of San Francisco, California
7.
Fackler ML, Bellamy RF, Malinowski JA (1988) The wound profile: illustration of the missile-tissue interaction. J Trauma 28:s21–s29CrossRef
8.
Fackler ML, Malinowski JA (1988) Ordnance gelatine for ballistic studies - detrimental effect of excess heat used in gelatine preparation. Am J Forensic Med Pathol 3:218–219CrossRef
9.
Harvey EN, McMillen JH, Butler EG, Puckett WO (1962) Mechanism of wounding. In: Coates JB (ed) Wound Ballistics. Medical Department United States Army, Washington D.C., pp 143–235
10.
DeMuth WE (1966) Bullet velocity and design as determinants of wounding capability: an experimental study. Proc 11th Int Symp Ballist 6:222–232
11.
Knudsen PJT, Vignaes JS (1995) Terminal ballistics of 7.62 mm NATO bullets: experiments in ordnance gelatine. Int J Legal Med 108:62–67CrossRef
12.
Wilson LB (1921) Dispersion of bullet energy in relation to wound effects. Mil Surg 49:241–251
13.
Krauss M (1957) Studies in wound ballistics: temporary cavity effects in soft tissues. Mil Med 121:221–231CrossRef
14.
Korać Z, Kelenc D, Baškot A et al (2001) Substitute ellipse of the permanent cavity in gelatin blocks and debridement of gunshot wounds. Mil Med 166:689–694CrossRef
15.
Korać Z, Kelenc D, Mikulić D et al (2001) Terminal ballistics of the Russian AK 74 assault rifle: two wounded patients and experimental findings. Mil Med 166:1065–1068CrossRef
16.
MacPherson D (2005) Bullet penetration—modeling the dynamics and incapacitation resulting from wound trauma. Ballistic Publications, United States of America
17.
Mabbott A, Carr DJ, Champion S, et al. (2013) Comparison of 10 % gelatine, 20 % gelatine and Perma-GelTM for ballistic testing. In: 27th Int Symp Ballistics. International Ballistics Society, Freiburg, p 648–654
18.
Wang ZG, Tang CG, Chen XY, Shi TZ (1988) Early pathomorphologic characteristics of the wound track caused by fragments. J Trauma 28:s89–s95CrossRef
19.
Bowyer GW, Ryan JM, Kaufmann CR, Ochsner MG (1997) General principles of wound management. In: Ryan JM, Rich NM, Dale RF, et al. (eds) Ballist trauma - Clin Relev peace war. Arnold, New York, p 105–119
20.
Ryan JM, Rich NM, Burris DG, Ochsner MG (1997) Biophysics and pathophysiology of penetrating injury. In: Ryan JM, Rich NM, Dale RF, et al. (eds) Ballist trauma - Clin Relev peace war. Arnold, New York, p 31–46
21.
Janzon B, Hull JB, Ryan JM (1997) Projectile-material interactions: soft tissue and bone. In: Cooper GJ, Dudley HAF, Gann DS et al (eds) Sci Found Trauma. Butterworth-Heinemann, Oxford, pp 37–52
22.
Berlin R, Gelin LE, Janzon B, et al. (1976) Local effects of assault rifle bullets in live tissue. Part I Acta Chir Scand Suppl 459:4–48
23.
24.
Hiss J, Kahana T (2000) Modern war wounds. In: Mason JK, Purdue BN (eds) Pathol Trauma. Arnold, New York, pp 89–102
25.
Janzon B (1997) Projectile-material interactions: simulants. In: Cooper GJ, Dudley HAF, Gann DS et al (eds) Sci Found Trauma. Butterworth-Heinemann, Oxford, pp 26–36
26.
Eisler RD, Chatterjee AK, Burghart GH, O’Keefe JA (2001) Casualty assessments of penetrating wounds from ballistic trauma. Mission Research Corporation, Costa MesaCrossRef
27.
Breeze J, Hunt NC, Gibb I et al (2013) Experimental penetration of fragment simulating projectiles into porcine tissues compared with simulants. J Forensic Leg Med 20:296–299CrossRef
28.
Carr DJ, Kieser J, Mabbott A et al (2014) Damage to apparel layers and underlying tissue due to hand-gun bullets. Int J Legal Med 128:83–93CrossRef
29.
Mabbott A, Carr DJ, Caldwell E et al (2014) Bony debris ingress into the lungs due to gunshot. 28th International Symp Ballist, Atlanta
30.
Osorio FA, Bilbao E, Bustos R, Alvarez F (2007) Effects of concentration, bloom degree, and pH on gelatin melting and gelling temperatures using small amplitude oscillatory rheology. Int J Food Prop 10:841–851CrossRef
31.
32.
Breeze J, Carr DJ, Mabbott A et al (2015) Refrigeration and freezing of porcine tissues does not affect the retardation of fragment simulating projectiles. J Forensic Leg Med 32:77–83CrossRef
Metadata
Title
Comparison of porcine thorax to gelatine blocks for wound ballistics studies
Authors
A. Mabbott
D. J. Carr
S. Champion
C. Malbon
Publication date
01-09-2016
Publisher
Springer Berlin Heidelberg
Published in
International Journal of Legal Medicine / Issue 5/2016
Print ISSN: 0937-9827
Electronic ISSN: 1437-1596
DOI
https://doi.org/10.1007/s00414-015-1309-9

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