Forensic reconstruction of two military combat related shooting incidents using an anatomically correct synthetic skull with a surrogate skin/soft tissue layer

Mahoney, Peter F.; Carr, Debra J.; Harrison, Karl; McGuire, Ruth; Hepper, A.; Flynn, Daniel L.; Delaney, Russ J.; Gibb, Iain

doi:10.1007/s00414-018-1802-z

Cited by 14 publications

(9 citation statements)

References 22 publications

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“…They do not come though without limitations. Whilst studies have shown that Synbone® exhibits a satisfactory reaction to impact as a cranial proxy [ 10 – 12 ] and can exhibit realistic reaction to ballistic injuries as demonstrated in the current study (e.g., hydraulic burst, Krönlein shot) there are still questions as to its suitability as a proxy for long bones [ 7 – 9 ]. Also, when ballistic testing on Synbone ® spheres used 7.62 × 39 mm ammunition at 50 m and 100 m the resulting injury patterns were considered to be “too comminuted and fragmented” when compared to contemporary military injuries encountered by participating physicians [ 12 ].…”

Section: Discussionmentioning

confidence: 91%

“…This study aimed to expand upon the work done by Taylor and Kranioti [ 13 ], Smith et al [ 6 ] Thali et al [ 10 , 11 ], and Mahoney et al [ 7 , 14 ] on testing whether Synbone® spheres are good proxies for human crania in ballistic studies and to record different injury patterns observed at different distances. It was found that the entry points of the ammunition into the spheres exhibit similar morphological patterns to real forensic cases when shot from a distance less than 35 m while exit wounds were larger than documented forensic cases.…”

Section: Discussionmentioning

confidence: 99%

“…Experimental ballistics and incident simulations have been broadly used as means to understand the effect of high energy impact on human proxies. Trauma simulations including ballistic testing have used both animal [ 2 , 3 ] and synthetic surrogates [ 4 ], spheres [ 5 , 6 ] and anatomically correct head proxies with variable results [ 7 ]. Whilst synthetic proxies for long bones appear problematic [ 4 , 8 , 9 ] it has been suggested that polyurethane spheres present efficient proxies for crania [ 6 ].…”

Section: Introductionmentioning

confidence: 99%

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Ballistic trauma caused by military rifles: experimental study based on synthetic skull proxies

Taylor

Ondruschka

Kieser

et al. 2022

Forensic Sci Med Pathol

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Rifles are often involved in violent deaths such as homicide and suicide. Consequently, expert knowledge and experimental forensic investigations are important to clarify the nature of ballistic trauma when applied to the human head and neurocranium. This study investigated differences in entrance wound morphology with Synbone® spheres which are described as being comparable to human flat bones. A series of ballistic experiments were conducted using two different rifle calibers (5.56 × 45 mm and 7.62 × 39 mm Full Metal Jacket (FMJ)). Synbone® spheres were used for close-range 0.3 m simulated executions as well as at 25 m and 35 m to simulate urban and military engagements. Results were compared with previously published experimental studies using similar military ammunition. In our study, entry wound morphology closely resembles real forensic cases compared to exit wound and overall shape morphology independently of the distance and the caliber. Circumferential delamination was clearly visible with full metal jacket (FMJ) rounds, yielding similar damage pattern morphology to the human crania. This study documented the presence of hydraulic burst or shock in all ten rounds from all three distances. Krönlein shots were also observed in some cases. Synbone® spheres constitute an acceptable synthetic surrogate for ballistic experiments. The present study offers new initial data on the behavior of Synbone® proxies in ballistic testing of military ammunitions; FMJ gunshot injuries to the human head, for distances that have not previously been published, suggesting that efficient tests can take place under these conditions. Further research on experimental ballistics with a larger number of controlled factors and multiple repetitions is recommended to verify the results of this pilot study before applied in forensic simulations.

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Section: Discussionmentioning

confidence: 91%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Ballistic trauma caused by military rifles: experimental study based on synthetic skull proxies

Taylor

Ondruschka

Kieser

et al. 2022

Forensic Sci Med Pathol

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“…Secondly, the sponge is not contained in anything resembling human tissue; thus, different types of bloodstains can also be deposited on the paper, which can impact the bloodstain pattern size and shape. Mahoney et al [11] published a method that observed back spatter on a synthetic skull; this methodology used ballistic gel and a surrogate skin layer to yield similar results that would be found in real-life situations. This study was used as an aid to develop the methodology to observe forward spatter as it implied the importance of using ballistic gel as a substitute for human tissue.…”

Section: Published Methods and Selection For Techniquementioning

confidence: 97%

Defining Patterns and Behaviours of Forward Spatter Gunshot Misting

Liscio

Ledo

2021

Forensic Sciences

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The purpose of this research was to study forward-spatter misting patterns by shooting a firearm through a chamber of blood encased in ballistic gel to determine if there is a relationship between bloodstain pattern size as a function of distance and orientation. There is a lack of research on forward spatter, blood travelling in the direction of a bullet, as most studies focus on back spatter, blood travelling in the opposite direction of a bullet. A bullet was fired through ballistic gel containing a blood chamber, depositing bloodstains onto a large sheet of butcher paper as the target surface. In total, there were 34 trials. The distances observed were 10, 20, 40, and 80 cm, the angles tested were 30°, 60°, and 90°. The orientation between the ballistic gel and paper target varied. A criterion was established to observe the overall area and symmetry of the bloodstain patterns. Statistical analyses indicated a negative linear relation relationship between the bloodstain pattern size and the paper’s angle and distance (R2 = 0.78) and the vertical symmetry of the bloodstain (R2 = 0.87). The orientation between the ballistic gel and paper target can impact the bloodstain pattern’s symmetry and size.

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“…Corpses or animals show several constraints, namely the ethical issue related to their use, the availability of specimens and the reproducibility of the results related to their heterogeneity [17,18]. Contrariwise, synthetic or non-humane biological materials showed a satisfactory to good level of reproducibility [5,18], in replacing human tissues like soft tissues (skin, muscle or brain tissue) or bones [1,14,[19][20][21][22][23][24][25][26][27][28][29][30][31][32][33]. For ballistics tests, these synthetic or non-humane biological materials are usually used in a combined way by assembling them together in order to create a realistic wound model.…”

Section: Shooting Tests In Wound Ballisticsmentioning

confidence: 99%

Practical application of synthetic head models in real ballistic cases

et al. 2021

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In shooting crimes, ballistics tests are often recommended in order to reproduce the wound characteristics of the involved persons. For this purpose, several “simulants” can be used. However, despite the efforts in the research of “surrogates” in the field of forensic ballistic, the development of synthetic models needs still to be improved through a validation process based on specific real caseworks. This study has been triggered by the findings observed during the autopsy performed on two victims killed in the same shooting incident, with similar wounding characteristics; namely two retained head shots with ricochet against the interior wall of the skull; both projectiles have been recovered during the autopsies after migration in the brain parenchyma. The thickness of the different tissues and structures along the bullets trajectories as well as the incident angles between the bullets paths and the skull walls have been measured and reproduced during the assemblage of the synthetic head models. Two different types of models (“open shape” and “spherical”) have been assembled using leather, polyurethane and gelatine to simulate respectively skin, bone and soft tissues. Six shots have been performed in total. The results of the models have been compared to the findings of post-mortem computed tomography (PMCT) and the autopsy findings.Out of the six shots, two perforated the models and four were retained. When the projectile was retained, the use of both models allowed reproducing the wounds characteristics observed on both victims in terms of penetration and ricochet behaviour. However, the projectiles recovered from the models showed less deformation than the bullets collected during the autopsies. The “open shape” model allowed a better controlling on the shooting parameters than the “spherical” model. Finally, the difference in bullet deformation could be caused by the choice of the bone simulant, which might under-represent either the strength or the density of the human bone. In our opinion, it would be worth to develop a new, more representative material for ballistic which simulates the human bone.

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Forensic reconstruction of two military combat related shooting incidents using an anatomically correct synthetic skull with a surrogate skin/soft tissue layer

Cited by 14 publications

References 22 publications

Ballistic trauma caused by military rifles: experimental study based on synthetic skull proxies

Ballistic trauma caused by military rifles: experimental study based on synthetic skull proxies

Defining Patterns and Behaviours of Forward Spatter Gunshot Misting

Practical application of synthetic head models in real ballistic cases

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