Toward a predictive assessment of stab-penetration forces

Aisling Ní Annaidh; Marie Cassidy; Michael Curtis; Michel Destrade; Michael D. Gilchrist

doi:10.1097/PAF.0000000000000075

Toward a predictive assessment of stab-penetration forces

Aisling Ní Annaidh
, Marie Cassidy
, Michael Curtis
, Michel Destrade
, Michael D. Gilchrist

Mathematics

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

13 Citations (Scopus)

Abstract

Collaborative research between the disciplines of forensic pathology and biomechanics was undertaken to investigate the hyperelastic properties of human skin, to determine the force required for sharp instrument penetration of skin, and to develop a finite element model, which reflects the mechanisms of sharp instrument penetration. These studies have led to the development of a "stab metric," based on simulations, to describe the force magnitudes in stabbing incidents. Such a metric should, in time, replace the crudely quantitative descriptors of stabbing forces currently used by forensic pathologists.

Original language	English
Pages (from-to)	162-166
Number of pages	5
Journal	American Journal of Forensic Medicine and Pathology
Volume	36
Issue number	3
DOIs	https://doi.org/10.1097/PAF.0000000000000075
Publication status	Published - 29 Sep 2015

Keywords

Stabbing
forensic biomechanics
impact
sharp force injury

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10.1097/PAF.0000000000000075

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title = "Toward a predictive assessment of stab-penetration forces",

abstract = "Collaborative research between the disciplines of forensic pathology and biomechanics was undertaken to investigate the hyperelastic properties of human skin, to determine the force required for sharp instrument penetration of skin, and to develop a finite element model, which reflects the mechanisms of sharp instrument penetration. These studies have led to the development of a {"}stab metric,{"} based on simulations, to describe the force magnitudes in stabbing incidents. Such a metric should, in time, replace the crudely quantitative descriptors of stabbing forces currently used by forensic pathologists.",

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AU - Annaidh, Aisling Ní

AU - Cassidy, Marie

AU - Curtis, Michael

AU - Destrade, Michel

AU - Gilchrist, Michael D.

PY - 2015/9/29

Y1 - 2015/9/29

N2 - Collaborative research between the disciplines of forensic pathology and biomechanics was undertaken to investigate the hyperelastic properties of human skin, to determine the force required for sharp instrument penetration of skin, and to develop a finite element model, which reflects the mechanisms of sharp instrument penetration. These studies have led to the development of a "stab metric," based on simulations, to describe the force magnitudes in stabbing incidents. Such a metric should, in time, replace the crudely quantitative descriptors of stabbing forces currently used by forensic pathologists.

AB - Collaborative research between the disciplines of forensic pathology and biomechanics was undertaken to investigate the hyperelastic properties of human skin, to determine the force required for sharp instrument penetration of skin, and to develop a finite element model, which reflects the mechanisms of sharp instrument penetration. These studies have led to the development of a "stab metric," based on simulations, to describe the force magnitudes in stabbing incidents. Such a metric should, in time, replace the crudely quantitative descriptors of stabbing forces currently used by forensic pathologists.

KW - Stabbing

KW - forensic biomechanics

KW - impact

KW - sharp force injury

UR - https://www.scopus.com/pages/publications/84940461542

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DO - 10.1097/PAF.0000000000000075

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EP - 166

JO - American Journal of Forensic Medicine and Pathology

JF - American Journal of Forensic Medicine and Pathology

IS - 3

ER -

Toward a predictive assessment of stab-penetration forces

Abstract

Keywords

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