Your search keyword '"Kneubuehl, Beat"' showing total 4 results

1. Threshold of the skull injury for blunt force impacts under free and constraint boundary conditions.

Author

Siegenthaler L, Strehl M, Vaghi A, Zysset P, Kneubuehl BP, and Frenz M

Subjects

Biomechanical Phenomena, Humans, Models, Anatomic, Models, Theoretical, Reproducibility of Results, Acceleration, Forensic Pathology, Gravitation, Head Injuries, Closed, Skull injuries, Skull Fractures

Abstract

The formation of skull fractures is an important topic in legal medicine. In particular, the influence of boundary conditions is controversially discussed in the literature. A study focusing solely on this aspect was missing. This study aimed to investigate the influence of boundary conditions on the energy threshold for head fractures. Because of the great variability of biological tissue of real skulls, we opted for a head model made from a polyurethane sphere filled with gelatin. Furthermore, we decided to investigate two opposite situations: A fixed configuration where a model was placed on a rigid surface and a (quasi) free boundary configuration where the head model was held at a force of 5 N compensating for gravity. For both configurations, we determined the acceleration signal of the impactor, the force, and the energy threshold for head fracture. It turned out that the fracture forces for both configurations were the same whereas the energy threshold was 11.0 J for the fixed and 13.6 J for the free boundary. The difference seems to be negligible if compared to the effect of varying structural mechanical properties of real human heads. This means that in a forensic case, the two situations most probably cannot be distinguished. To investigate the influence of the impactor mass, we developed a mathematical model and fitted the experimental data. As a result, we found that in the free configuration, a larger mass increases the energy threshold for head fracture. So that in principle, the two configurations are distinguishable.

Published

2020

2. Are full or empty beer bottles sturdier and does their fracture-threshold suffice to break the human skull?

Author

Bolliger SA, Ross S, Oesterhelweg L, Thali MJ, and Kneubuehl BP

Subjects

Biophysical Phenomena, Forensic Pathology, Humans, Beer, Glass, Models, Biological, Skull Fractures etiology

Abstract

Beer bottles are often used in physical disputes. If the bottles break, they may give rise to sharp trauma. However, if the bottles remain intact, they may cause blunt injuries. In order to investigate whether full or empty standard half-litre beer bottles are sturdier and if the necessary breaking energy surpasses the minimum fracture-threshold of the human skull, we tested the fracture properties of such beer bottles in a drop-tower. Full bottles broke at 30 J impact energy, empty bottles at 40 J. These breaking energies surpass the minimum fracture-threshold of the human neurocranium. Beer bottles may therefore fracture the human skull and therefore serve as dangerous instruments in a physical dispute.

Published

2009

3. Unusually extensive head trauma in a hydraulic elevator accident: post-mortem MSCT findings, autopsy results and scene reconstruction.

Author

Jacobsen C, Schön CA, Kneubuehl B, Thali MJ, and Aghayev E

Subjects

Femoral Fractures pathology, Forensic Pathology, Hemorrhage pathology, Humans, Imaging, Three-Dimensional, Lumbar Vertebrae injuries, Lumbar Vertebrae pathology, Male, Middle Aged, Spinal Fractures pathology, Tomography, X-Ray Computed methods, Accidents, Occupational, Craniocerebral Trauma pathology, Elevators and Escalators, Fractures, Comminuted pathology, Skull Fractures pathology

Abstract

Accidental or intentional falls from a height are a form of blunt trauma and occur frequently in forensic medicine. Reports describing elevator accidents as a small subcategory of falls from heights are rare in the medical literature and no report on injury patterns or scene reconstruction of such an accident was found. A case of an accident in a hydraulic elevator with a man falling 3m was examined using post-mortem multi-slice computed tomography (MSCT) and autopsy. The man suffered an unusually extensive trauma and died at the scene. Post-mortem MSCT examination showed a comminute fracture of the skull, the right femur and the first lumbar vertebra. Severe lacerations of the brain with epidural, subdural and subarachnoidal haemorrhages over both hemispheres were diagnosed. Autopsy confirmed these findings. To reconstruct the accident we used radiological and autopsy results as well as findings at the scene.

Published

2008

4. Secondary skull fractures in head wounds inflicted by captive bolt guns: autopsy findings and experimental simulation.

Author

Perdekamp, Markus Große, Kneubuehl, Beat P., Ishikawa, Takaki, Nadjem, Hadi, Kromeier, Jan, Pollak, Stefan, and Thierauf, Annette

Subjects

*BRAIN injuries, *SKULL fractures, *WOUND healing, *FORENSIC medicine, *AUTOPSY

Abstract

part from one article published by Rabl and Sigrist in 1992 ( Rechtsmedizin 2:156-158), there are no further reports on secondary skull fractures in shots from captive bolt guns. Up to now, the pertinent literature places particular emphasis on the absence of indirect lesions away from the impact point, when dealing with the wounding capacity of slaughterer's guns. The recent observation of two suicidal head injuries accompanied by skull fractures far away from the bolt's path gave occasion to experimental studies using simulants (glycerin soap, balls from gelatin) and skull-brain models. As far as ballistic soap was concerned, the dimensions of the bolt's channel were assessed by multi-slice computed tomography before cutting the blocks open. The test shots to gelatin balls and to skull-brain models were documented by means of a high-speed motion camera. As expected, the typical temporary cavity effect of bullets fired from conventional guns could not be observed when captive bolt stunners were discharged. Nevertheless, the visualized transfer of kinetic energy justifies the assumption that the secondary fractures seen in thin parts of the skull were caused by a hydraulic burst effect. [ABSTRACT FROM AUTHOR]

Published

2010