Influence of extrinsic plantar flexors on forefoot loading during heel rise

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Ferris, Linda; Sharkey, Neil A.; Smith, Tait S.; Matthews, Donald K.

Influence of extrinsic plantar flexors on forefoot loading during heel rise

Foot Ankle Int. August 1995;16(8):464-473

Abstract

This investigation studied the effects of simulated plantar flexor muscle activity on forefoot loading using a static cadaver model. Nine cadaver feet were mounted in an apparatus in the heel rise position. Using computer-controlled and pneumatic actuators forces were simultaneously applied to the tendons of the triceps surae, flexor hallucis longus, flexor digitorum longus, peroneus brevis and longus, and tibialis posterior until 750 N of ground reaction force was achieved, at which time forefoot plantar pressure patterns were captured immediately with a pedobarograph. Second metatarsal bending moments were calculated from strain gauge data collected concurrently. Consecutive loading cycles were performed with sequential elimination of simulated muscle force from each tendon except the Achilles. Loss of simulated flexor hallucis longus activity significantly decreased great toe contact forces and significantly increased forces under the forefoot. Simulated loss of both the flexor hallucis longus and flexor digitorum longus caused significant decreases in contact area, pressure, and force beneath the toes and significant increases in contact area and force under the forefoot. Bending moments in the second metatarsal were shown to vary directly with peak pressure under the second metatarsal head (r = 0.801). These findings demonstrate the load distributing function of the extrinsic plantar flexors during heel rise.
Links

PubMed: 8520658

WoS: A1995RP62900002

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Cited By (14)

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1998	Manning P, Wallace A, Owen C, Roberts A, Oakley C, Lowne R. Dynamic response and injury mechanism in the human foot and ankle and an analysis of dummy biofidelity. In: Proceedings of the 16th International Technical Conference on the Enhanced Safety of Vehicles (ESV). May 31–June 4, 1998; Windsor, Ontario, Canada.1960-1998.
2001	Funk JR, Crandall JR, Tourret LJ, MacMahon CB, Bass CR, Khaewpong N, Eppinger RH. The effect of active muscle tension on the axial injury tolerance of the human foot/ankle complex. In: Proceedings of the 17th International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 4-7, 2001; Amsterdam, The Netherlands.
2000	McMaster J, Parry M, Wallace WA, Wheeler L, Owen C, Lowne R, Oakley C, Roberts AK. Biomechanics of ankle and hindfoot injuries in dynamic axial loading. Stapp Car Crash J. 2000;44:357-377. SAE 2000-01-SC23.
2005	Griffin NL, Richmond BG. Cross-sectional geometry of the human forefoot. Bone. August 2005;37(2):253-260.
2011	Funk JR. Ankle injury mechanisms: lessons learned from cadaveric studies. Clin Anat. April 2011;24(3):350-361.
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.
1999	Sharkey NA, Donahue SW, Ferris L. Biomechanical consequences of plantar fascia release or rupture during gait, II: alterations in forefoor loading. Foot Ankle Int. February 1999;20(2):86-96.
2008	Kirane YM, Michelson JD, Sharkey NA. Contribution of the flexor hallucis longus to loading of the first metatarsal and first metatarsophalangeal joint. Foot Ankle Int. April 2008;29(4):367-377.
2008	Kirane YM, Michelson JD, Sharkey NA. Evidence of isometric function of the flexor hallucis longus muscle in normal gait. J Biomech. 2008;41(9):1919-1928.
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.
2002	Funk JR, Crandall JR, Tourret LJ, MacMahon CB, Bass CR, Patrie JT, Khaewpong N, Eppinger RH. The axial injury tolerance of the human foot/ankle complex and the effect of Achilles tension. J Biomech Eng. 2002;124(6):750-757.
2016	Firminger CR. Effects of Minimalist Footwear and Stride Length Reduction on Metatarsal Strains and the Probability of Stress Fracture in Running [Master's thesis]. Calgary, AB: University of Calgary; July 2016.
2000	Funk JR. The Effect of Active Muscle Tension on the Axial Impact Tolerance of the Human Foot/ankle Complex [PhD thesis]. Charlottesville, VA: University of Virginia; August 2000.
2013	Spratley EM. Patient-Specific Modeling of Adult Acquired Flatfoot Deformity Before and After Surgery [PhD thesis]. Richmond, VA: Virginia Commonwealth University; 2013.