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Hirsch, Carl
1
; Lewis, Jack
1
Experimental ankle-joint fractures
Acta Orthop Scand
. 1965;36(4):408-417
Affiliations
1
Department of Orthopaedic Surgery,
University of Gothenhurg
, Sweden
Links
DOI:
10.3109/17453676508988650
PubMed:
5859806
WoS:
A19657285900005
Cited By (14)
Year
Entry
1992
Begeman PC, Balakrishnan P, King AI. Human ankle response in dorsiflexion. In:
Proceedings of the 2nd Injury Prevention Through Biomechanics Symposium
. April 10-11, 1992; Detroit, MI.9-20.
1970
Hirsch C. Biomechanics in orthopedic surgery: an account of aims and methods. In: Gurdjian ES, Lange WA, Patrick LM, Thomas LM, eds.
Impact Injury and Crash Protection
. Springfield, IL: Charles C. Thomas; 1970:125-140.
2012
Meyer EG, Wei F, Button K, Powell JW, Haut RC. Determination of ligament strain during high ankle sprains due to excessive external foot rotation in sports. In:
Proceedings of the 2012 International IRCOBI Conference on the Biomechanics of Injury
. September 12-14, 2012; Dublin, Ireland.277-287.
1990
Begeman PC, Prasad P. Human ankle impact response in dorsiflexion. In:
Proceedings of the 34th Stapp Car Crash Conference
. November 4-7, 1990; Orlando, FL. Warrendale, PA: Society of Automotive Engineers:39-53. SAE 902308.
2009
Villwock MR, Meyer EG, Powell JW, Fousty AJ, Haut RC. Football playing surface and shoe design affect rotational traction.
Am J Sports Med
. 2009;37(3):518-525.
2011
Funk JR. Ankle injury mechanisms: lessons learned from cadaveric studies.
Clin Anat
. April 2011;24(3):350-361.
2010
Wei F, Villwock MR, Meyer EG, Powell JW, Haut RC. A biomechanical investigation of ankle injury under excessive external foot rotation in the human cadaver.
J Biomech Eng
. September 2010;132(9):091001.
2012
Wei F, Post JM, Braman JE, Meyer EG, Powell JW, Haut RC. Eversion during external rotation of the human cadaver foot produces high ankle sprains.
J Orthop Res
. September 2012;30(9):1423-1429.
2009
Villwock MR, Meyer EG, Powell JW, Fouty AJ, Haut RC. The effects of various infills, fibre structures, and shoe designs on generating rotational traction on an artificial surface.
Proc Inst Mech Eng Part P-J Sports Eng Tech
. 2009;223(1):21-29.
2011
Zahn RK, Frey S, Moritz M, Waschke J, Schneider P, Meffert RH. Die Supinations-Eversions-Verletzung des OSG in osteoporotischen Unterschenkelpräparaten: Experimentelle Induktion und Literaturübersicht [Supination external rotation lesions of the ankle joint in osteoporotic lower leg specimens: experimental induction and review of the literature].
Unfallchirurg
. 2011;114(8):697-704.
2013
Gallenberger KA.
Foot and Ankle Injuries in Variable Energy Impacts
[Master's thesis]. Marquette University; May 2013.
2009
Villwock MR.
Rotational Traction At the American Football Shoe-Surface Interface and Its Application to Ankle Injury
[Master's thesis]. East Lansing, MI: Michigan State University; September 2009.
2012
Wei F.
Biomechanical Investigations and Computational Modeling of the Human Ankle
[PhD thesis]. East Lansing, MI: Michigan State University; 2012.
2015
Button KD.
Biomechanical Response of the Ankle to Excessive External Rotation
[PhD thesis]. East Lansing, MI: Michigan State University; 2015.