A fiber‐based modelling approach of ankle ligaments in situ

Affiliations

¹Mechanical and Aerospace Engineering, University of Virginia, USA

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Cited Works (6)

Year	Entry
1988	Siegler S, Block J, Schenck CD. The mechanical characteristics of the collateral ligaments of the human ankle joint. Foot Ankle. April 1988;8(5):234-242.
2010	Waterman BR, Belmont PJ Jr, Cameron KL, DeBerardino TM, Owens BD. Epidemiology of ankle sprain at the United States Military Academy. Am J Sports Med. April 2010;38(4):797-803.
2000	Leardini A, O'Connor JJ, Catani F, Giannini S. The role of the passive structures in the mobility and stability of the human ankle joint: a literature review. Foot Ankle Int. 2000;21(7):602-615.
2000	Funk JR, Hall GW, Crandall JR, Pilkey WD. Linear and quasi-linear viscoelastic characterization of ankle ligaments. J Biomech Eng. February 2000;122(1):15-22.
2012	Shin J, Yue N, Untaroiu CD. A finite element model of the foot and ankle for automotive impact applications. Ann Biomed Eng. December 2012;40(12):2519-2531.
1985	Attarian DE, McCrackin HJ, DeVito DP, McElhaney JH, Garrett WE Jr. Biomechanical characteristics of human ankle ligaments. Foot Ankle. 1985;6(2):54-58.

Cited By (1)

Year	Entry
2017	Mait AR. Syndesmotic Ankle Sprains in Large Males [Master's thesis]. Charlottesville, VA: University of Virginia; August 2017.