Biomechanical model of the human foot:​ kinematics and kinetics during the stance phase of walking

Scott, Stephen H.; Winter, David A.

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WoS: A1993LR27000008

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Cited By (32)

Year	Entry
2012	Kim Y, Kim S, Son J, Jeong B. Kinetic role of the metatarsophalangeal joint in normal walking: joint moment and power. Int J Prec Eng Manufact. August 2012;13(8):1481-1485.
2000	Ledoux W, Camacho D, Ching R, Sangeorzan B. The development and validation of a computational foot and ankle model. Proceedings of the 22nd Annual International Conference of the IEEE Engineering in Medicine and Biology Society; July 23-28, 2000.2899-2902.
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.
2001	Chen W-P, Tang F-T, Ju C-W. Stress distribution of the foot during mid-stance to push-off in barefoot gait: a 3-D finite element analysis. Clin Biomech (Bristol, Avon). August 2001;16(7):614-620.
1999	Anderson FC, Pandy MG. A dynamic optimization solution for vertical jumping in three dimensions. Comput Methods Biomech Biomed Eng. 1999;2(3):201-231.
2000	Leardini A, O'Connor JJ, Catani F, Giannini S. The role of the passive structures in the mobility and stability of the human ankle joint: a literature review. Foot Ankle Int. 2000;21(7):602-615.
1996	Kidder SM, Abuzzahab FS Jr, Harris GF, Johnson JE. A system for the analysis of foot and ankle kinematics during gait. IEEE Trans Rehabil Eng. March 1996;4(1):25-32.
1995	Kim W, Voloshin AS. Role of plantar fascia in the load bearing capacity of the human foot. J Biomech. September 1995;28(9):1025-1033.
1997	Stefanyshyn DJ, Nigg BM. Mechanical energy contribution of the metatarsophalangeal joint to running and sprinting. J Biomech. November–December 1997;30(11-12):1081-1085.
2008	Imhauser CW, Siegler S, Udupa JK, Toy JR. Subject-specific models of the hindfoot reveal a relationship between morphology and passive mechanical properties. J Biomech. 2008;41(6):1341-1349.
1998	Parenteau CS, Viano DC, Petit PY. Biomechanical properties of human cadaveric ankle-subtalar joints in quasi-static loading. J Biomech Eng. February 1998;120(1):105-111.
2000	Funk JR, Hall GW, Crandall JR, Pilkey WD. Linear and quasi-linear viscoelastic characterization of ankle ligaments. J Biomech Eng. February 2000;122(1):15-22.
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.
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.
2010	Qian Z, Ren L, Ren L. A coupling analysis of the biomechanical functions of human foot complex during locomotion. J Bionic Eng. 2010;7(suppl 1):S150-S157.
2006	Krell JB, Stefanyshyn DJ. The relationship between extension of the metatarsophalangeal joint and sprint time for 100 m Olympic athletes. J Sports Sci. February 2006;24(2):175-180.
2004	Imhauser CW. The Development and Evaluation of a 3-Dimensional, Image-Based, Patientspecific, Dynamic Model of the Hindfoot [PhD thesis]. Philadelphia, PA: Drexel University; August 2004.
2005	Cheung TMJ. Development of Knowledge-Based Criteria for Designing Foot Orthoses [PhD thesis]. Hong Kong Polytechnic University; October 2005.
2019	Goggins KA. Measuring and Modelling Human Response to Foot-Transmitted Vibration Exposure [PhD thesis]. Sudbury, ON: Laurentian University; 2019.
2012	Wee HB. The Dynamic Model of the Foot and Ankle System [PhD thesis]. Bethlehem, PA: Lehigh University; September 2012.
2002	Erdemir A. Load Transfer Mechanisms of the Foot [PhD thesis]. State College, PA: Pennsylvania State University; December 2002.
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.
1998	Giddings VL. Computer Simulations of Calcaneal Loading and Bone Adaptation [PhD thesis]. Stanford University; June 1998.
1997	Lee S. Dynamic Characterization of Relative Forefoot Abduction [Master's thesis]. Calgary, AB: University of Calgary; November 1997.
1998	Wright IC. A Simulation Study of the Contribution of Several Factors to Ankle Sprain Susceptibility [PhD thesis]. Calgary, AB: University of Calgary; December 1998.
1999	Davies TC. Lower Extremity Biomechanics of Children With Clubfoot [Master's thesis]. Calgary, AB: University of Calgary; September 1999.
2002	Krell J. The Influence of the Metatarsophalangeal Joint in Determining Sprint Running [Master's thesis]. Calgary, AB: University of Calgary; April 2002.
1999	Ledoux WR II. A Biomechanical Model of the Human Foot With Emphasis on the Plantar Soft Tissue [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 1999.
2014	Kelly LA. In-Vivo Function of Human Plantar Intrinsic Foot Muscles [PhD thesis]. Brisbane, Australia: University of Queensland; 2014.
2021	Kessler SE. The Spring in Your Step: The Role of Muscles and Elastic Connective Tissue Within the Foot [PhD thesis]. Brisbane, Australia: University of Queensland; 2021.
1999	Anderson FC III. A Dynamic Optimization Solution for a Complete Cycle of Normal Gait [PhD thesis]. University of Texas at Austin; December 1999.
2019	Honert EC. Ankle and Foot Biomechanics During Human Walking: Powerful Insights on Multiarticular Muscles, Soft Tissues, and Toe Joint Dynamics [PhD thesis]. Nashville, TN: Vanderbilt University; May 10, 2019.