Stephen J. Piazza scite author profile

SUMMARYThe musculoskeletal structure of the foot and ankle has the potential to influence human sprinting performance in complex ways. A large Achillesʼ tendon moment arm improves the mechanical advantage of the triceps surae but also produces larger shortening velocity during rapid plantarflexion, which detracts from the force-generating capacity of the plantarflexors. The lever arm of the ground reaction force that resists the muscular plantarflexor moment during propulsive push-off is constrained in part by the skeletal structure of the foot. In this study, we measured the plantarflexion moment arms of the Achillesʼ tendon, lateral gastrocnemius fascicle lengths and pennation angles, and anthropometric characteristics of the foot and lower leg in collegiate sprinters and height-matched non-sprinters. The Achillesʼ tendon moment arms of the sprinters were 25% smaller on average in sprinters than in non-sprinters (P<0.001) whereas the sprintersʼ fascicles were 11% longer on average (P0.024). The ratio of fascicle length to moment arm was 50% larger in sprinters (P<0.001). Sprinters were found to have longer toes (P0.032) and shorter lower legs (P0.026) than non sprinters. A simple computer simulation of the sprint push-off demonstrated that shorter plantarflexor moment arms and longer toes, like those measured in sprinters, permit greater generation of forward impulse. Simulated propulsion was enhanced in both cases by increasing the ʻgear ratioʼ of the foot, thus maintaining plantarflexor fibre length and reducing peak fibre shortening velocity. Longer toes especially prolonged the time of contact, giving greater time for forward acceleration by propulsive ground reaction force.

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The influence of muscles on knee flexion during the swing phase of gait

Piazza

Delp

1996

Journal of Biomechanics

273

178

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Dynamic Loading of the Plantar Aponeurosis in Walking

Erdemir

Hamel

Fauth

et al. 2004

The Journal of Bone & Joint Surgery

228

161

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Accuracy of the functional method of hip joint center location: effects of limited motion and varied implementation

Piazza

Okita

Cavanagh

2001

Journal of Biomechanics

173

131

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Measurement of the screw-home motion of the knee is sensitive to errors in axis alignment

Piazza

Cavanagh

2000

Journal of Biomechanics

208

132

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Stephen J. Piazza

Built for speed: musculoskeletal structure and sprinting ability

The influence of muscles on knee flexion during the swing phase of gait

Dynamic Loading of the Plantar Aponeurosis in Walking

Accuracy of the functional method of hip joint center location: effects of limited motion and varied implementation

Measurement of the screw-home motion of the knee is sensitive to errors in axis alignment

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