Constitutive formulation and analysis of heel pad tissues mechanics

Natali, A. N.; Fontanella, C. G.; Carniel, E. L.

Links

DOI: 10.1016/j.medengphy.2010.02.018

PubMed: 20304698

Cited Works (16)

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2003	Tong J, Lim CS, Goh OL. Technique to study the biomechanical properties of the human calcaneal heel pad. Foot. June 2003;13(2):83-91.
2001	Gefen A, Megido-Ravid M, Azariah M, Itzchak Y, Arcan M. Integration of plantar soft tissue stiffness measurements in routine MRI of the diabetic foot. Clin Biomech (Bristol, Avon). 2001;16(10):921-925.
1999	Cavanagh P. Plantar soft tissue thickness during ground contact in walking. J Biomech. June 1999;32(6):623-628.
2006	Erdemir A, Viveiros ML, Ulbrecht JS, Cavanagh PR. An inverse finite-element model of heel-pad indentation. J Biomech. 2006;39(7):1279-1286.
2004	Ledoux WR, Meaney DF, Hillstrom HJ. A quasi-linear, viscoelastic, structural model of the plantar soft tissue with frequency-sensitive damping properties. J Biomech Eng. 2004;126(6):831-837.
2007	Ledoux WR, Blevins JJ. The compressive material properties of the plantar soft tissue. J Biomech. 2007;40(13):2975-2981.
2003	Chen W-P, Ju C-W, Tang F-T. Effects of total contact insoles on the plantar stress redistribution: a finite element analysis. Clin Biomech (Bristol, Avon). July 2003;18(6):S17-S24.
2006	Spears IR, Miller-Young JE. The effect of heel-pad thickness and loading protocol on measured heel-pad stiffness and a standardized protocol for inter-subject comparability. Clin Biomech (Bristol, Avon). February 2006;21(2):204-212.
2008	Natali AN, Carniel EL, Pavan PG. Constitutive modelling of inelastic behaviour of cortical bone. Med Eng Phys. September 2008;30(7):905-912.
2001	Gefen A, Megido-Ravid M, Itzchak Y. In vivo biomechanical behavior of the human heel pad during the stance phase of gait. J Biomech. 2001;34(12):1661-1665.
2000	Zheng YP, Choi YKC, Wong K, Chan S, Mak AFT. Biomechanical assessment of plantar foot tissue in diabetic patients using an ultrasound indentation system. Ultrasound Med Biol. 2000;26(3):451-456.
2003	Miller-Young JE. Factors Affecting Human Heel Pad Mechanics: A Finite Element Study [PhD thesis]. Calgary, AB: University of Calgary; April 2003.
2002	Miller-Young JE, Duncan NA, Baroud G. Material properties of the human calcaneal fat pad in compression: experiment and theory. J Biomech. December 2002;35(12):1523-1531.
2004	Natali AN, Pavan PG, Carniel EL, Dorow C. Viscoelastic response of the periodontal ligament: an experimental–numerical analysis. Connect Tissue Res. 2004;45(4-5):220-230.

Cited By (7)

Year	Entry
2014	Bailey AM, Panzer MB, Salzar RS. Development of a transfer function for interpreting Hybrid‐III lower leg data from axial loading. In: Proceedings of the 2014 International IRCOBI Conference on the Biomechanics of Injury. September 10-12, 2014; Berlin, Germany.213-223.
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.
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	Natali AN, Forestiero A, Carniel EL, Pavan PG, Zovo CD. Investigation of foot plantar pressure: experimental and numerical analysis. Med Biol Eng Comput. 2010;48(12):1167-1174.
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.
2016	Grigoriadis G. Heel Biomechanics Under Blast Conditions [PhD thesis]. Imperial College London; June 2016.
2016	Bailey AM. Injury Assessment for the Human Leg Exposed to Axial Impact Loading [PhD thesis]. Charlottesville, VA: University of Virginia; September 2016.