Dynamic loading of the plantar aponeurosis in walking

Erdemir, Ahmet; Hamel, Andrew J.; Fauth, Andrew R.; Piazza, Stephen J.; Sharkey, Neil A.

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Cited Works (21)

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2001	Kogler GF, Veer FB, Verhulst SJ, Solomonidis SE, Paul JP. The effect of heel elevation on strain within the plantar aponeurosis: in vitro study. Foot Ankle Int. May 2001;22(5):433-439.
1992	Daly PJ, Kitaoka HB, Chao EYS. Plantar fasciotomy for intractable plantar fasciitis: clinical results and biomechanical evaluation. Foot Ankle. 1992;13(4):188-195.
1979	Mann RA, Hagy JL. The function of the toes in walking, jogging and running. Clin Orthop Relat Res. 1979;142:24-29.
1998	Murphy GA, Pneumaticos SG, Kamaric E, Noble PC, Trevino SG, Baxter DE. Biomechanical consequences of sequential plantar fascia release. Foot Ankle Int. 1998;19(3):149-152.
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.
2000	Carlson RE, Fleming LL, Hutton WC. The biomechanical relationship between the tendoachilles, plantar fascia and metatarsophalangeal joint dorsiflexion angle. Foot Ankle Int. January 2000;21(1):18-25.
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Cited By (27)

Year	Entry
2012	Chen W, Lee PVS. Three-dimensional finite element analysis of human foot during heel rise: role of the gastrocnemius-soleus (G-S) muscle. In: Bradshaw EJ, Burnett A, Hume PA, eds. Proceedings of the 30th International Conference on Biomechanics in Sports. July 2-6, 2012; Melbourne, Austalia.393-396.
2018	Yuasa Y, Kurihara T, Isaka T. Relationship between toe muscular strength and the ability to change direction in athletes. J Hum Kinet. September 2018;64(1):47-55.
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.
2006	Cheung JT-M, Zhang M, An K-N. Effect of Achilles tendon loading on plantar fascia tension in the standing foot. Clin Biomech (Bristol, Avon). February 2006;21(2):194-203.
2011	Wilken J, Rao S, Saltzman C, Yack HJ. The effect of arch height on kinematic coupling during walking. Clin Biomech (Bristol, Avon). March 2011;26(3):318-323.
2010	Natali AN, Pavan PG, Stecco C. A constitutive model for the mechanical characterization of the plantar fascia. Connect Tissue Res. 2010;51(5):337-346.
2012	Frimenko RE, Lievers WB, Coughlin MJ, Anderson RB, Crandall JR, Kent RW. Etiology and biomechanics of first metatarsophalangeal joint sprains (turf toe) in athletes. Crit Rev Biomed Eng. 2012;40(1):43-61.
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.
2013	Lin S-C, Chen CPC, Tang SFT, Wong AMK, Hsieh J-H, Chen W-P. Changes in windlass effect in response to different shoe and insole designs during walking. Gait Post. February 2013;37(2):235-241.
2009	Madjarevic M, Kolundzic R, Trkulja V, Mirkovic M, Pecina M. Biomechanical analysis of functional adaptation of metatarsal bones in statically deformed feet. Int Orthop. 2009;33(1):157-163.
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.
2012	Chen W-M, Park J, Park S-B, Shim VP-W, Lee T. Role of gastrocnemius–soleus muscle in forefoot force transmission at heel rise: a 3D finite element analysis. J Biomech. June 26, 2012;45(10):1783-1789.
2023	Davis DJ, Challis JH. Characterizing the mechanical function of the foot’s arch across steady-state gait modes. J Biomech. April 2023;151:111529.
2023	Isvilanonda V, Li EY, Iaquinto JM, Ledoux WR. Regional differences in the mechanical properties of the plantar aponeurosis. J Biomech. April 2023;151:111531.
2009	Caravaggi P, Pataky T, Goulermas JY, Savage R, Crompton R. A dynamic model of the windlass mechanism of the foot: evidence for early stance phase preloading of the plantar aponeurosis. J Exp Biol. 2009;212(15):2491-2499.
2022	Malakoutikhah H, Madenci E, Latt LD. The contribution of the ligaments in progressive collapsing foot deformity: a comprehensive computational study. J Orthop Res. September 2022;40(9):2209-2221.
2023	Malakoutikhah H, Madenci E, Latt LD. A computational model of force within the ligaments and tendons in progressive collapsing foot deformity. J Orthop Res. February 2023;41(2):396-406.
2019	Yuasa Y, Kurihara T, Tsumiyama M, Ozawa S, Aruga S, Koyama T, Isaka T. The relationship between jump performances and toe muscular strengths focus on the angles of metatarsophalengeal joint in athletes [in Japanese]. Jpn J Phys Fitness Sports Med. 2019;68(1):83-90.
2021	Welte L, Kelly LA, Kessler SE, Lieberman DE, D’Andrea SE, Lichtwark GA, Rainbow MJ. The extensibility of the plantar fascia influences the windlass mechanism during human running. Proc R Soc B. January 27, 2021;288(1943):20202095.
2017	Saers JPP. Ontogeny and Functional Adaptation of Trabecular Bone in the Human Foot [PhD thesis]. Cambridge, UK: University of Cambridge; July 2017.
2005	Cheung TMJ. Development of Knowledge-Based Criteria for Designing Foot Orthoses [PhD thesis]. Hong Kong Polytechnic University; October 2005.
2010	Hageman ER. Medial Longitudinal Arch Mechanics Before and After a Prolonged Run [Master's thesis]. Iowa State University; 2010.
2021	Mettler JH. Strain Estimations of the Plantar Fascia and Other Ligaments of the Foot: Implications for Plantar Fasciitis [PhD thesis]. Iowa State University; 2021.
2020	Welte LKM. Arch-Rivals? The Roles of the Windlass and Arch-Spring Mechanisms in Running [PhD thesis]. Queen's University; September 2020.
2022	Eriksen Daehlin T. The Role of the Ankle Plantar Flexors, Extrinsic Foot Muscles, and Intrinsic Foot Muscles in Performing Propulsive Tasks [PhD thesis]. Edmonton, AB: University of Alberta; 2022.
2021	Čigoja S. Shoe Bending Stiffness and Muscle-Tendon Unit Function in Running [PhD thesis]. Calgary, AB: University of Calgary; January 2021.
2010	Aubin PM. The Robotic Gait Simulator: A Dynamic Cadaveric Foot and Ankle Model for Biomechanics Research [PhD thesis]. Seattle, WA: University of Washington; 2010.