The compressive material properties of the plantar soft tissue

Ledoux, William R.; Blevins, Joanna J.

Links

DOI: 10.1016/j.jbiomech.2007.02.009

Cited Works (9)

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Cited By (18)

Year	Entry
2014	Grigoriadis G, Newell N, Masouros SD, Bull AMJ. The material properties of the human heel fat pad across strain‐rates: an inverse finite element approach. In: Proceedings of the 2014 International IRCOBI Conference on the Biomechanics of Injury. September 10-12, 2014; Berlin, Germany.478-479.
2014	Gabler LF, Panzer MB, Salzar RS. High‐rate mechanical properties of human heel pad for simulation of a blast loading condition. In: Proceedings of the 2014 International IRCOBI Conference on the Biomechanics of Injury. September 10-12, 2014; Berlin, Germany.796-808.
2017	Butz K, Spurlock C, Roy R, Bell C, Barrett P, Ward A, Xiao X, Shirley A, Welch C, Liste K. Development of the CAVEMAN human body model: validation of lower extremity sub-injurious response to vertical accelerative loading. Stapp Car Crash J. November 2017;61:175-209. SAE 2017-22-0006.
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.
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.
2010	Pai S, Ledoux WR. The compressive mechanical properties of diabetic and non-diabetic plantar soft tissue. J Biomech. June 18, 2010;43(9):1754-1760.
2012	Pai S, Ledoux WR. The shear mechanical properties of diabetic and non-diabetic plantar soft tissue. J Biomech. January 10, 2012;45(2):364-370.
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.
2012	Chokhandre S, Halloran JP, van den Bogert AJ, Erdemir A. A three-dimensional inverse finite element analysis of the heel pad. J Biomech Eng. March 2012;134(3):031002.
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.
2010	Natali AN, Fontanella CG, Carniel EL. Constitutive formulation and analysis of heel pad tissues mechanics. Med Eng Phys. 2010;32(5):516-522.
2012	Fontanella CG, Matteoli S, Carniel EL, Wilhjelm JE, Virga A, Corvi A, Natali AN. Investigation on the load-displacement curves of a human healthy heel pad: in vivo compression data compared to numerical results. Med Eng Phys. November 2012;34(9):1253-1259.
2010	Gu Y, Li J, Ren X, Lake MJ, Zeng Y. Heel skin stiffness effect on the hind foot biomechanics during heel strike. Skin Res Tech. 2010;16(3):291-296.
2007	Petre MT. Investigating the Internal Stress/strain State of the Foot Using Magnetic Resonance Imaging and Finite Element Analysis [PhD thesis]. Cleveland, OH: Case Western Reserve University; August 2007.
2016	Grigoriadis G. Heel Biomechanics Under Blast Conditions [PhD thesis]. Imperial College London; June 2016.
2012	Wee HB. The Dynamic Model of the Foot and Ankle System [PhD thesis]. Bethlehem, PA: Lehigh University; September 2012.
2008	Lewis GS. Computational Modeling of the Mechanics of Flatfoot Deformity and Its Surgical Corrections [PhD thesis]. State College, PA: Pennsylvania State University; December 2008.
2011	Shin J. Injury and Response of Human Ankle and Subtalar Joints Under Complex Loading [PhD thesis]. Charlottesville, VA: University of Virginia; December 2011.