Gunshot-related transport of micro-organisms from the skin of the entrance region into the bullet path

Perdekamp, M. Große; Kneubuehl, Beat P.; Serr, Annerose; Vennemann, Benedikt; Pollak, Stefan

doi:10.1007/s00414-005-0073-7

Cited by 20 publications

(25 citation statements)

References 21 publications

(21 reference statements)

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“…Nine pieces of pig skin, each measuring 25×10 cm, were stained in a haematoxylin bath, dried and disinfected as described in a previous study [6]. Directly before the test shots, 1 ml of a bacterial suspension (S. epidermidis, DSM 1798, 10 8 CFU/ml) was applied to the skin surface (Fig.…”

Section: Main Test Series With Staphylococcus Epidermidismentioning

confidence: 99%

“…On the other hand, the gunshot entrance wound is typically characterised by a skin defect that could be shown to be caused by anterograde and retrograde displacement of macroscopically visible and microscopically small skin particles [5]. Furthermore, it has been demonstrated that microorganisms from the skin of the entrance site are carried along the whole length of the bullet track and may therefore constitute a source of infection in gunshot victims [6].…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, the present study was undertaken to investigate whether, in experimental gunshots, microorganisms can be displaced in a retrograde direction from the skin of the exit region back into the bullet path, thus creating a further source of infection in gunshot wounds. As in our previous experiments [6], we used composite models of gelatin and pig skin for test shots with different bullet types. A preliminary test was performed using gelatin blocks and pig skin contaminated with green fluorescent protein (GFPuv)-labelled bacteria to investigate whether a retrograde transport of microorganisms back into the bullet path can be demonstrated.…”

Section: Introductionmentioning

confidence: 99%

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Gunshot-related displacement of skin particles and bacteria from the exit region back into the bullet path

Vennemann

Perdekamp

Kneubuehl³

et al. 2006

Int J Legal Med

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In previous studies, it was shown that there is a gunshot-related transport of skin particles and microorganisms from the entrance region into the depth of the bullet path. The present study deals with the question of whether gunshots may also cause a retrograde transport of skin particles and microorganisms from the bullet exit region back into the bullet path. For this purpose, we used a composite model consisting of rectangular gelatin blocks and pig skin. The skin pieces were firmly attached to the gelatin blocks on the side where the bullet was to exit. Prior to the test shots, the outer surface of the pig skin was contaminated with a thin layer of a defined bacterial suspension. After drying the skin, test shots were fired from a distance of 10 m using cartridges calibre .38 spec. with different bullet types. Subsequent analyses showed that in all shots with full penetration of the composite model, the bullet path contained displaced skin particles and microorganisms from the skin surface at the exit site. These could be regularly detected in the distal 6-8 cm of the track, occasionally up to a distance of 18 cm from the exit hole. The distribution of skin particles and microorganisms is presented and the possible mechanism of this retrograde transport is discussed.

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Section: Main Test Series With Staphylococcus Epidermidismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Gunshot-related displacement of skin particles and bacteria from the exit region back into the bullet path

Vennemann

Perdekamp

Kneubuehl³

et al. 2006

Int J Legal Med

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“…For each group (a cotton, b jeans, c leather, d nylon) and firing distance tested (5,15, and 30 cm), the macroscopic features of the fabrics and the underlying skin and the micro-CT reconstructions (frontal and lateral views) of the wounds are represented particular, it was assumed that the density of textile fibers in the bullet entrance was higher than that in the exit site. This general rule, however, has been recently questioned by Vennemann et al [26] in an experimental study performed on a porcine skin-gelatine model [27,28]. The authors observed a retrograde displacement of fibers from the clothing back into the bullet path.…”

Section: Discussionmentioning

confidence: 87%

Micro-CT features of intermediate gunshot wounds covered by textiles

et al. 2016

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The analysis of gunshot residue (GSR) on the clothing and the underlying skin of the victim may play an important role in the reconstruction of the shooting incident. The aim of the present study was to test micro-computed tomography (micro-CT) for the analysis of firearm wounds experimentally produced on human skin covered by textiles. Firing trials were performed on 60 sections of human calves enveloped by a single layer of fabric (cotton or jeans or leather or nylon) and 15 controls consisting of bare calves. Experimental firings were conducted in a ballistic laboratory at three different muzzle-to-target distances (5, 15, and 30 cm), using a .32 ACP pistol (Beretta Mod. 81) loaded with full-jacketed bullets coming from the same production lot (7.65 × 17 mm, Browning SR). The visual inspection revealed the classic pattern of GSR distribution on the fabrics and the skin of control samples, while only a dark ring around the entrance lesion was identified on the skin beneath the fabrics. Micro-CT analysis showed the presence of radiopaque material on all entrance wounds, with a statistically significant difference between cases and controls. No differences were found among specimens covered by fabrics, with regard to the firing distance and the type of clothing. No GSR-like deposits were detected in exit wounds. Our results suggest that micro-CT analysis may be a useful screening tool for differentiating entry from exit gunshot wounds when the covering textiles are contaminated, damaged, or missing.

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“…The principal technical procedure has already been described in previous papers [4,7,20,21]. In order to imitate a reentry shot constellation, two cylindrical gelatine blocks (24×8 cm in size) were tightly wrapped in pieces of skin from the belly region of slaughtered pigs and arranged one behind the other by means of a metal rack which permitted the distance between the cylindrical segments to be varied (Fig.…”

Section: Methodsmentioning

confidence: 99%

Experimental simulation of reentry shots using a skin-gelatine composite model

et al. 2009

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A bullet that has passed in and out of one body segment may continue its way into another part of the body causing a second entrance ("reentry") wound, which is often said to have an atypical and sometimes confusing appearance. To analyze this problem in a systematical approach, 9-mm Parabellum full metal-jacketed projectiles were fired at skin-gelatine composite models simulating the consecutive passage of a bullet through two parts of a body. When there was a distance between the two segments, the primary exit and the reentry skin wounds did not show any distinctive features differing from usual gunshot injuries. In the case of contact between exit and reentry site, the corresponding skin wounds resembled each other as both had central tissue defects surrounded by abrasion areas. The subsequent investigation of the simulant revealed that skin particles from both the exit and the adjacent reentry site had been displaced in the direction of the shot along the whole bullet track of the second segment. The morphological findings are presented and discussed with respect to the pertinent literature, and possible physical ballistic explanations are suggested.

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Gunshot-related transport of micro-organisms from the skin of the entrance region into the bullet path

Cited by 20 publications

References 21 publications

Gunshot-related displacement of skin particles and bacteria from the exit region back into the bullet path

Gunshot-related displacement of skin particles and bacteria from the exit region back into the bullet path

Micro-CT features of intermediate gunshot wounds covered by textiles

Experimental simulation of reentry shots using a skin-gelatine composite model

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