Your search keyword '"Pig skin"' showing total 10 results

1. Postmortem interval determination in excised porcine skin using a novel ultrasound-based elasticity measurement device

Author

Bhattacharjee, Tanmoy, Petherick, Russell, Harris, Paul, and Duncan, Warwick

Published

2024

2. The cutting edge—an investigation into the pressure necessary for cutting skin with different knife blade types

Author

Michael J. Thali, Vera Barrera, Stephan A. Bolliger, Damaris Froehlich Knaute, Esmé Wallace, Akos Dobay, University of Zurich, and Bolliger, Stephan A

Subjects

Blade (geometry), Swine, 340 Law, 610 Medicine & health, Wounds, Penetrating, Edge (geometry), Models, Biological, 01 natural sciences, Imaging phantom, Pathology and Forensic Medicine, Pig skin, 03 medical and health sciences, Entire skin, 510 Mathematics, 0302 clinical medicine, Pressure, Sharp force, Animals, Humans, 030216 legal & forensic medicine, Knife blades, Skin, 010401 analytical chemistry, Significant difference, 10218 Institute of Legal Medicine, 0104 chemical sciences, 2734 Pathology and Forensic Medicine, Gelatin, Weapons, Geology, Biomedical engineering

Abstract

Sharp force trauma is routinely encountered in forensic practice. Often the question is posed, how much pressure or energy would have been necessary to inflict a cut with a specific knife, in order to further characterize the perpetrator or determine his intent to cause harm. This paper investigates two knife blades and its individual pressures needed to cut through the epidermis and dermis. In order to examine the necessary force for cutting through the skin, we performed experiments on a piglet skin-on-gelatin phantom. Two similarly small knives-a paring knife with a serrated blade and a Swiss Army pocket knife with a smooth blade-were moved over the phantom surface using a mobile cutting apparatus with varying weight on the load arm with the knife. The depth of the cut was to be determined according to a scale from zero to three: grade 0 = no cut; grade 1 = cut into epidermis only; grade 2 = cut into dermis; grade 3 = complete transection of the entire skin. Each cut inflicted at a specific pressure force was assessed closely in order to ascertain depth, calculate the velocity, and ultimately determine the point at which a cut would inflict grade 3 damage. The smooth blade of a pocket knife needed at least 1900g pressure in order to slice through pig skin mounted on a thick gelatin block, whereas a serrated blade of a paring knife managed to cut into or through the dermis at a comparatively lower force of 700g. Our study shows that at the same cutting velocity, a significant difference in pressure is necessary to inflict the same degree of damage.

Published

2020

3. Detection of gunshot residues in routine CTs.

Author

Stein, K. M., Bahner, M. L., Merkel, J., Ain, S., and Mattern, R.

Abstract

The forensic assessment of non-fatal gunshot wounds often proves to be difficult as wounds have usually been cleaned and protected with a sterile bandage by the time of the examination. The aim of our investigation was to test the possible application of computed tomography (CT) for the forensic assessment. Doing so raised the questions whether gunshot residues in the soft tissues, detected by means of 3-dimensional CT, can be used as evidence of a close-range shot and whether conclusions can be drawn pertaining to the range of the shot or the type of bullet used based on the distribution of the radiologically detectable material? In this experimental study 39 shots were fired at fresh pig skin and it was possible to distinguish shots fired from distances of more than 10 cm and contact shots independent of the type of bullet. For unjacketed lead bullets, radiopaque material could be seen in the depth of the entrance wound for firing distances up to 10 cm. In individual cases, CT data and the 3-D reconstruction could provide valuable information in the forensic assessment of patients with gunshot wounds. [ABSTRACT FROM AUTHOR]

Published

2000

4. Arrow entrance wounds with blackened margins simulating bullet wipe

Author

Arianna Giorgetti, Markus Große Perdekamp, Stefan Pollak, Katrin Mierdel, Dorothee Geisenberger, and Vanessa Thoma

Subjects

Male, Skin wound, Ballistic gelatin, Forensic Ballistics, Aorta, Thoracic, Wounds, Penetrating, 01 natural sciences, Crossbow, Pathology and Forensic Medicine, Pig skin, 03 medical and health sciences, 0302 clinical medicine, Suicide, Completed, Humans, 030216 legal & forensic medicine, Sodium rhodizonate, Forensic Pathology, Histological examination, integumentary system, 010401 analytical chemistry, Medicolegal aspects, Anatomy, Middle Aged, 0104 chemical sciences, Heart Injuries, Shot (pellet), Weapons, Geology

Abstract

Crossbows are ancient distance weapons, which in modern times have been largely replaced by guns. Nowadays, they are used for target shooting and in some countries also for hunting. Bolts/arrows fired from a crossbow have a rather low initial velocity but a high penetration capacity comparable to bullets shot from firearms. A considerable number of homicidal, suicidal, and accidental crossbow injuries have been reported up to the present day both under clinical and medicolegal aspects. A recent suicide case gave rise to a systematic study of entrance wounds from field-tipped arrows with shafts made of carbon. Composite models (ballistic gelatin covered with pig skin) served as targets. As found in the suicide case presented, the roundish entrance wounds were characterized by a slit-like severance of the skin surrounded by a pronounced blackish ring resembling the bullet wipe in gunshots. The material deposited circularly on the margins was subjected to the sodium rhodizonate test, SEM/EDX analysis, histological examination, and Raman spectroscopy. As expected, the elements typical of gunshot residues could not be detected. The element pattern of the black deposits was consistent with that of the arrows' tips and carbon shafts. Histological examination revealed that the carbonaceous material was deposited on the abraded wound margins suggesting a mechanism of friction causing the transfer of material. In conclusion, the presence of a black-margined roundish skin wound does not necessarily mean a bullet wipe. The casuistic part of the paper deals with a suicidal shot to the chest in a 48-year-old man, inflicted with a field-tipped carbon arrow which perforated both the heart and the thoracic aorta. In addition, a review of the literature on fatal crossbow injuries is presented.

Published

2019

5. Maximum tensile stress and strain of skin of the domestic pig-differences concerning pigs from organic and non-organic farming

Author

Sylvia Schick, Steffen Peldschus, Felicitas Lanzl, Matthias Graw, and Miriam Leiderer

Subjects

Veterinary medicine, Langer's lines, Sus scrofa, Human skin, 01 natural sciences, Pathology and Forensic Medicine, Pig skin, 03 medical and health sciences, 0302 clinical medicine, Germany, Skin Physiological Phenomena, Tensile Strength, Animals, Humans, Porcine skin, 030216 legal & forensic medicine, Organic Agriculture, integumentary system, Strain (chemistry), Chemistry, 010401 analytical chemistry, Strain rate, 0104 chemical sciences, Biomechanical Phenomena, Domestic pig, Models, Animal, Organic farming

Abstract

The purpose of this work has been to determine differences in biomechanical properties of porcine skin from organic and non-organic farming as porcine skin is widely used as a model for human skin. A test apparatus was used, using gravity to stretch and finally tear a dumbbell-shaped specimen of prepared abdominal skin with a testing surface area of 25 × 4 mm. A total of 32 specimens were taken from seven individual pigs, three from organic and four from non-organic farming, in different orientations with respect to the Langer’s lines. The tests were performed at a dynamic speed of around 1.66 m/s (corresponding to a nominal strain rate of 67 s−1). Engineering strain at rupture was higher in pig skin from non-organic farming with values up to 321% as opposed to 90% in organic pig skin. The maximum tensile stress found in non-organic pig skin was lower than in pig skin from organic farming with maximum values of 34 MPa as opposed to 58 MPa. The reason for the difference in biomechanical properties is unclear; the effect of sunlight is discussed as well as other factors like age and exercise. It seems that the biomechanical properties of porcine skin from organic farming are more similar to those of human skin.

Published

2019

6. The influence of the bullet shape on the width of abrasion collars and the size of gunshot entrance holes

Author

Dorothee Geisenberger, Markus Große Perdekamp, Annette Thierauf-Emberger, Rebecca Pircher, Stefan Pollak, and Demet Preiß

Subjects

Materials science, Forensic Ballistics, Swine, 01 natural sciences, Pathology and Forensic Medicine, Abrasion (geology), Collar, Pig skin, 03 medical and health sciences, Cartridge, 0302 clinical medicine, Optics, Animals, 030216 legal & forensic medicine, Skin pathology, Hole size, Skin, integumentary system, business.industry, Projectile, 010401 analytical chemistry, Structural engineering, 0104 chemical sciences, Models, Animal, Wounds, Gunshot, business, Bullet (shape)

Abstract

To investigate if there is any correlation between the bullet design and the respective dimensions of the abrasion collar and the skin defect in gunshot entrance wounds, experimental studies were performed on dyed pig skin. For the test shots, .38 Special revolver cartridges with three different bullet designs (round nose, wadcutter, and truncated cone) were used. With the help of an image editing program in combination with an image analyzing system, the area size of the abrasion rings and the skin defects was calculated automatically. The measured values differed significantly depending on the bullet type: the abrasion ring areas were largest in shots with round nose bullets and smallest with wadcutter projectiles. With regard to the entrance hole size, the relationship was inverse. The results are discussed with reference to the pertinent literature concerning the dynamic interaction between bullet and skin.

Published

2016

7. Tissue defect at the gunshot entrance wound: what happens to the skin?

Author

D. Mattern, M. Grosse Perdekamp, Annerose Serr, Stefan Pollak, and Benedikt Vennemann

Subjects

medicine.medical_specialty, Materials science, Coloured skin, integumentary system, Forensic Ballistics, Swine, Projectile, Accident prevention, Poison control, Anatomy, Pathology and Forensic Medicine, Surgery, Tissue defect, Pig skin, Cartridge, medicine, Animals, Wounds, Gunshot, Cell Aggregations, Skin

Abstract

To investigate the question what happens to the tissue lost at the entrance wound, experimental studies were performed on composite models consisting of dyed pig skin and gelatin blocks. For the test shots to the skin-gelatin preparations, cartridges calibre .38 spec. with different bullet types (round nose, hollow point, flat nose, truncated cone) were used. In all shots, a multitude of coloured skin particles were macroscopically discernible along the bullet tracks. In addition, small cell aggregations could be demonstrated microscopically even in those sections of the bullet paths which did not show skin fragments visible to the naked eye. The distribution of the skin particles showed certain peculiarities depending on the type of projectile.

Published

2005

8. Detection of gunshot residues in routine CTs

Author

Rainer Mattern, Stephan Ain, Kirsten Marion Stein, J. Merkel, and M. L. Bahner

Subjects

Male, Firearms, medicine.medical_specialty, Injury control, Swine, Accident prevention, Poison control, Computed tomography, Pathology and Forensic Medicine, Pig skin, medicine, Animals, Humans, Skin, Medulla Oblongata, medicine.diagnostic_test, business.industry, Middle Aged, Surgery, Suicide, Shot (pellet), Brain Injuries, Wounds, Gunshot, Autopsy, Radiology, Tomography, X-Ray Computed, business, Bandage

Abstract

The forensic assessment of non-fatal gunshot wounds often proves to be difficult as wounds have usually been cleaned and protected with a sterile bandage by the time of the examination. The aim of our investigation was to test the possible application of computed tomography (CT) for the forensic assessment. Doing so raised the questions whether gunshot residues in the soft tissues, detected by means of 3-dimensional CT, can be used as evidence of a close-range shot and whether conclusions can be drawn pertaining to the range of the shot or the type of bullet used based on the distribution of the radiologically detectable material? In this experimental study 39 shots were fired at fresh pig skin and it was possible to distinguish shots fired from distances of more than 10 cm and contact shots independent of the type of bullet. For unjacketed lead bullets, radiopaque material could be seen in the depth of the entrance would for firing distances up to 10 cm. In individual cases, CT data and the 3-D reconstruction could provide valuable information in the forensic assessment of patients with gunshot wounds.

Published

2000

9. Wound ballistic evaluation of the Taser® XREP ammunition

Author

Sebastian Kunz, A Manthei, Nico Grove, Matthias Graw, Simon Eichner, Jiri Adamec, Oliver Peschel, Peter B. Noël, Bettina Zinka, and Daniela Münzel

Subjects

Materials science, Chassis, Projectile, Forensic Ballistics, Swine, Acoustics, Taser, Conducted Energy Weapon Injuries, Poison control, Wound ballistics, Models, Biological, Pathology and Forensic Medicine, Pig skin, Ammunition, Kinetics, Skin penetration, Models, Animal, Animals, Humans, Forensic Pathology, Simulation, Skin

Abstract

The Taser® eXtended Range Electronic Projectile (XREP®) is a wireless conducted electrical weapon (CEW) designed to incapacitate a person from a larger distance. The aim of this study was to analyze the ballistic injury potential of the XREP. Twenty rounds were fired from the Taser®X12 TM shotgun into ballistic soap covered with artificial skin and clothing at different shooting distances (1–25 m). One shot was fired at pig skin at a shooting distance of 10 m. The average projectile velocity was 67.0 m/s. The kinetic energy levels on impact varied from 28–52 J. Depending on the intermediate target, the projectiles penetrated up to 4.2 cm into the ballistic soap. On impact the nose assembly did not separate from the chassis, and no electrical activation was registered. Upon impact, a skin penetration of the XREP cannot be excluded. However, it is very unlikely at shooting distances of 10 m or more. Clothing and a high elasticity limit of the target body area can significantly reduce the penetration risk on impact.

Published

2011

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

Author

Annerose Serr, M. Grosse Perdekamp, Stefan Pollak, Benedikt Vennemann, and Beat P. Kneubuehl

Subjects

Test series, food.ingredient, Materials science, integumentary system, biology, Forensic Ballistics, Swine, Thin layer, Skin flora, biology.organism_classification, Gelatin, Pathology and Forensic Medicine, Microbiology, Pig skin, Cartridge, food, Skin surface, Wound Infection, Animals, Wounds, Gunshot, Biomedical engineering, Skin

Abstract

The skin defect of a gunshot entrance wound is caused by the retrograde and anterograde displacement of skin particles. In the present study, we investigated whether gunshots to bacterially contaminated skin are associated with the transport of micro-organisms into the bullet path. The shots were fired into composite models of pig skin and gelatin blocks. The outer surface of the skin was covered with a thin layer of a defined bacterial suspension [green fluorescent protein-labelled Escherichia coli in the preliminary test and Staphylococcus epidermidis, DSM 1798, in the main test series]. After the bacterially contaminated fluid had dried, test shots were fired from a distance of 5 and 10 m using calibre .38 Special cartridges with different bullet types (round nose, truncated cone, hollow point and flat nose). Subsequent bacteriological analyses showed that all the bullet tracks in the gelatin serving as tissue simulant contained displaced micro-organisms from the skin surface. The results are presented and discussed with reference to the transport of skin particles into the depth of the wound track.

Published

2005