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- Title
Foot-Ankle Fractures and Injury Probability Curves from Post-mortem Human Surrogate Tests.
- Authors
Yoganandan, Narayan; Chirvi, Sajal; Pintar, Frank; Uppal, Harmeeth; Schlick, Michael; Banerjee, Anjishnu; Voo, Liming; Merkle, Andrew; Kleinberger, Michael
- Abstract
This purpose of this study was to replicate foot-ankle injuries seen in the military and derive human injury probability curves using the human cadaver model. Lower legs were isolated below knee from seventeen unembalmed human cadavers and they were aligned in a 90-90 posture (plantar surface orthogonal to leg). The specimens were loaded along the tibia axis by applying short-time duration pulses, using a repeated testing protocol. Injuries were documented using pre- and post-test X-rays, computed tomography scans, and dissection. Peak force-based risk curves were derived using survival analysis and accounted for data censoring. Fractures were grouped into all foot-ankle (A), any calcaneus (B), and any tibia injuries (C), respectively. Calcaneus and/or distal tibia/pilon fractures occurred in fourteen tests. Axial forces were the greatest and least for groups C and B, respectively. Times attainments of forces for all groups were within ten milliseconds. The Weibull function was the optimal probability distribution for all groups. Age was significant ( p < 0.05) for groups A and C. Survival analysis-based probability curves were derived for all groups. Data are given in the body of paper. Age-based, risk-specific, and continuous distribution probability curves/responses guide in the creation of an injury assessment capability for military blast environments.
- Subjects
DIAGNOSIS of foot injuries; AUTOPSY; ANKLE fractures; MEDICAL protocols; CONTINUOUS distributions; MEDICAL research; DIAGNOSIS
- Publication
Annals of Biomedical Engineering, 2016, Vol 44, Issue 10, p2937
- ISSN
0090-6964
- Publication type
Article
- DOI
10.1007/s10439-016-1598-2