TY - JOUR
T1 - Biomechanical analysis of controlled tibial blunt force trauma
AU - Dempsey, Nicholas
AU - Gilbert, Felicity Maria
AU - Miszkiewicz, Justyna
AU - Oxenham, Marc F.
N1 - Publisher Copyright:
© 2018, © 2018 Australian Academy of Forensic Sciences.
PY - 2019/9/3
Y1 - 2019/9/3
N2 - The analysis and interpretation of skeletal injuries caused by blunt force trauma (BFT) is often critical to reconstructing a victim’s osteological profile. The manner in which bone fractures in response to BFT is a complex multiphasic process that involves interactions between mechanical force, skin and the musculo-skeletal system. To further improve our understanding of how bone fractures under mechanical force, this study investigated whether a quantifiable relationship was discernible between force and specific fracture outcomes (maximum fracture length, total fragment count and total anterior/posterior radiating fracture lines) and how anatomical factors influenced those outcomes. Fleshed sheep tibiae (Ovis aries, n = 30) were subjected to three conditions of force (90 N, 112 N and 135 N), ten tibiae at each force. Results indicate that a significant relationship exists between force and fracture length with respect to 90 N and 112 N force outcomes. No significant relationship was discernible between the level of force and the outcome variables of total fragment count and total anterior/posterior radiating fracture lines. These preliminary results suggest there is potential for further analysis of bone fracture behaviour under mechanical force with consideration to a broader suite of soft tissue and skeletal variables.
AB - The analysis and interpretation of skeletal injuries caused by blunt force trauma (BFT) is often critical to reconstructing a victim’s osteological profile. The manner in which bone fractures in response to BFT is a complex multiphasic process that involves interactions between mechanical force, skin and the musculo-skeletal system. To further improve our understanding of how bone fractures under mechanical force, this study investigated whether a quantifiable relationship was discernible between force and specific fracture outcomes (maximum fracture length, total fragment count and total anterior/posterior radiating fracture lines) and how anatomical factors influenced those outcomes. Fleshed sheep tibiae (Ovis aries, n = 30) were subjected to three conditions of force (90 N, 112 N and 135 N), ten tibiae at each force. Results indicate that a significant relationship exists between force and fracture length with respect to 90 N and 112 N force outcomes. No significant relationship was discernible between the level of force and the outcome variables of total fragment count and total anterior/posterior radiating fracture lines. These preliminary results suggest there is potential for further analysis of bone fracture behaviour under mechanical force with consideration to a broader suite of soft tissue and skeletal variables.
KW - bone fractures
KW - controlled force
KW - Skeletal injuries
KW - trauma
UR - http://www.scopus.com/inward/record.url?scp=85041596480&partnerID=8YFLogxK
U2 - 10.1080/00450618.2018.1429017
DO - 10.1080/00450618.2018.1429017
M3 - Article
AN - SCOPUS:85041596480
SN - 0045-0618
VL - 51
SP - 538
EP - 548
JO - Australian Journal of Forensic Sciences
JF - Australian Journal of Forensic Sciences
IS - 5
ER -