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Gefen, Amit
; Megido-Ravid, Michal; Itzchak, Yacov
In vivo biomechanical behavior of the human heel pad during the stance phase of gait
J Biomech
. 2001;34(12):1661-1665
Links
DOI:
10.1016/S0021-9290(01)00143-9
PubMed:
11716870
WoS:
000172730500018
Cited Works (6)
Year
Entry
1995
Aerts P, Ker RF, De Clercq D, Ilsley DW, Alexander RM. The mechanical properties of the human heel pad: a paradox resolved.
J Biomech
. November 1995;28(11):1299-1308.
2000
Gefen A, Megido-Ravid M, Itzchak Y, Arcan M. Biomechanical analysis of the three-dimensional foot structure during gait: a basic tool for clinical applications.
J Biomech Eng
. December 2000;122(6):630-639.
1999
Cavanagh P. Plantar soft tissue thickness during ground contact in walking.
J Biomech
. June 1999;32(6):623-628.
1994
De Clercq D, Aerts P, Kunnen M. The mechanical characteristics of the human heel pad during foot strike in running: an in vivo cineradiographic study.
J Biomech
. October 1994;27(10):1213-1222.
1978
Paul IL, Munro MB, Abernethy PJ, Simon SR, Radin EL, Rose RM. Musculo-skeletal shock absorption: relative contribution of bone and soft tissues at various frequencies.
J Biomech
. 1978;11(5):237-239.
1990
Bennett MB, Ker RF. The mechanical properties of the human subcalcaneal fat pad in compression.
J Anat
. August 1990;171:131-138.
Cited By (25)
Year
Entry
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.
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.
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.
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.
2003
Gefen A. The in vivo elastic properties of the plantar fascia during the contact phase of walking.
Foot Ankle Int
. March 2003;24(3):238-244.
2010
Caravaggi P, Pataky T, Günther M, Savage R, Crompton R. Dynamics of longitudinal arch support in relation to walking speed: contribution of the plantar aponeurosis.
J Anat
. 2010;217(3):254-261.
2002
Gefen A. Stress analysis of the standing foot following surgical plantar fascia release.
J Biomech
. 2002;35(5):629-637.
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
. May 2005;38(5):1045-1054.
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.
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.
2003
Gefen A. Plantar soft tissue loading under the medial metatarsals in the standing diabetic foot.
Med Eng Phys
. 2003;25(6):491-499.
2010
Natali AN, Fontanella CG, Carniel EL. Constitutive formulation and analysis of heel pad tissues mechanics.
Med Eng Phys
. 2010;32(5):516-522.
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.
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.
2004
Samuel SP.
Fluid/solid Interactions in Cancellous Bone
[PhD thesis]. Cleveland State University; August 2004.
2005
Cheung TMJ.
Development of Knowledge-Based Criteria for Designing Foot Orthoses
[PhD thesis]. Hong Kong Polytechnic University; October 2005.
2013
Newell N.
Foot and Ankle Blast Injury and Its Mitigation
[PhD thesis]. Imperial College London; June 2013.
2016
Grigoriadis G.
Heel Biomechanics Under Blast Conditions
[PhD thesis]. Imperial College London; June 2016.
2020
de Victoria Pereira Rebelo EA.
Injury and Protection of the Foot and Ankle in Under-Body Blast
[PhD thesis]. Imperial College London; August 2020.
2012
Wee HB.
The Dynamic Model of the Foot and Ankle System
[PhD thesis]. Bethlehem, PA: Lehigh University; September 2012.
2020
Welte LKM.
Arch-Rivals? The Roles of the Windlass and Arch-Spring Mechanisms in Running
[PhD thesis]. Queen's University; September 2020.
2003
Miller-Young JE.
Factors Affecting Human Heel Pad Mechanics: A Finite Element Study
[PhD thesis]. Calgary, AB: University of Calgary; April 2003.
2007
Lott DJ.
Effects of Stress Application on the Soft Tissues of the Neuropathic Foot
[PhD thesis]. St. Louis, MO: Washington University in St. Louis; May 2007.