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Wu, Lijun
Nonlinear finite element analysis for musculoskeletal biomechanics of medial and lateral plantar longitudinal arch of Virtual Chinese Human after plantar ligamentous structure failures
Clin Biomech
(Bristol, Avon). 2007;22(2):221-229
Links
DOI:
10.1016/j.clinbiomech.2006.09.009
PubMed:
17118500
WoS:
000244166700009
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1999
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J Bone Joint Surg
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2000
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J Biomech Eng
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J Bone Joint Surg
. July 1995;77A(7):1050-1057.
2002
Gefen A. Stress analysis of the standing foot following surgical plantar fascia release.
J Biomech
. 2002;35(5):629-637.
2004
Cheung JT-M, Zhang M, An K-N. Effects of plantar fascia stiffness on the biomechanical responses of the ankle–foot complex.
Clin Biomech
(Bristol, Avon). October 2004;19(8):839-846.
2005
Cheung JT-M, Zhang M, Leung AK-L, Fan Y-B. Three-dimensional finite element analysis of the foot during standing: a material sensitivity study.
J Biomech
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1999
Maganaris CN, Paul JP. In vivo human tendon mechanical properties.
J Physiol
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2003
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2000
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J Bone Joint Surg
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Cited By (15)
Year
Entry
2010
Qian Z-h, Ren L, Ren L-q, Boonpratatong A. A three-dimensional finite element musculoskeletal model of the human foot complex. In: Lim CT, Goh JCH, eds.
6th World Congress of Biomechanics (WCB 2010)
. August 1-6, 2010; Singapore. Heidelberg, Germany: Springer:297-300.
IFMBE Proceedings
; vol 31.
2008
Hsu Y-C, Gung Y-W, Shih S-L, Feng C-K, Wei S-H, Yu C-h, Chen C-S. Using an optimization approach to design an insole for lowering plantar fascia stress: a finite element study.
Ann Biomed Eng
. 2008;36(8):1345-1352.
2016
Morales-Orcajo E, Bayod J, Barbosa de Las Casas E. Computational foot modeling: scope and applications.
Arch Comput Methods Eng
. September 2016;23(3):389-416.
2012
Isvilanonda V, Dengler E, Iaquinto JM, Sangeorzan BJ, Ledoux WR. Finite element analysis of the foot: model validation and comparison between two common treatments of the clawed hallux deformity.
Clin Biomech
(Bristol, Avon). October 2012;27(8):837-844.
2008
Cheng H-YK, Lin C-L, Chou S-W, Wang H-W. Nonlinear finite element analysis of the plantar fascia due to the windlass mechanism.
Foot Ankle Int
. 2008;29(8):845-851.
2010
Gu YD, Ren XJ, Li JS, Lake MJ, Zhang QY, Zeng YJ. Computer simulation of stress distribution in the metatarsals at different inversion landing angles using the finite element method.
Int Orthop
. June 2010;34(5):669-676.
2008
Cheng H-YK, Lin C-L, Wang H-W, Chou S-W. Finite element analysis of plantar fascia under stretch: the relative contribution of windlass mechanism and Achilles tendon force.
J Biomech
. 2008;41(9):1937-1944.
2009
García-Aznar JM, Bayod J, Rosas A, Larrainzar R, García-Bógalo R, Doblaré M, Llanos LF. Load transfer mechanism for different metatarsal geometries: a finite element study.
J Biomech Eng
. February 2009;131(2):021011.
2009
Erdemir A, Sirimamilla PA, Halloran JP, van den Bogert AJ. An elaborate data set characterizing the mechanical response of the foot.
J Biomech Eng
. 2009;131(9):094502.
2009
Tao K, Wang D, Wang C, Wang X, Liu A, Nester CJ, Howard D. An in vivo experimental validation of a computational model of human foot.
J Bionic Eng
. 2009;6(4):387-397.
2011
Qiu T-X, Teo E-C, Yan Y-B, Lei W. Finite element modeling of a 3D coupled foot–boot model.
Med Eng Phys
. December 2011;33(10):1228-1233.
2021
Simonik MM, Pitarresi JM, Willing R. Development of customized finite element models of medial column fixation using an intramedullary beam: a computational sensitivity analysis.
Med Eng Phys
. February 2021;88:32-40.
2009
Sirimamilla PA.
Elaborate Experimentation for Mechanical Characterization of Human Foot Using Inverse Finite Element Analysis
[Master's thesis]. Cleveland, OH: Case Western Reserve University; January 2009.
2020
Ellison MA.
Beam Theory and Finite Element Approaches to Modelling the Stresses in the Second Metatarsal During Running
[PhD thesis]. Exeter, UK: University of Exeter; March 2020.
2016
Grigoriadis G.
Heel Biomechanics Under Blast Conditions
[PhD thesis]. Imperial College London; June 2016.