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Considerations on the human Achilles tendon moment arm for in vivo triceps surae muscle-tendon unit force estimates

Health and Fitness

Considerations on the human Achilles tendon moment arm for in vivo triceps surae muscle-tendon unit force estimates

D. Holzer, F. K. Paternoster, et al.

This study, conducted by Denis Holzer and colleagues, explores how varying Achilles tendon moment arm-angle functions impact the force-angle relationship of the triceps surae muscle-tendon unit during maximum plantarflexion. The findings reveal that these functions significantly affect force estimations, emphasizing the need for individualized approaches in biomechanical research.

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~3 min • Beginner • English
Abstract
Moment arm-angle functions (MA-a-functions) are commonly used to estimate in vivo muscle forces in humans. However, different MA-a-functions might not only influence the magnitude of the estimated muscle forces but also change the shape of the muscle's estimated force-angle relationship (F-a-r). Therefore, we investigated the influence of different literature based Achilles tendon MA-a-functions on the triceps surae muscle-tendon unit F-a-r. The individual in vivo triceps torque-angle relationship was determined in 14 participants performing maximum voluntary fixed-end plantarflexion contractions from 18.3° ± 3.2° plantarflexion to 24.2° ± 5.1° dorsiflexion on a dynamometer. The resulting F-a-r were calculated using 15 literature-based in vivo Achilles tendon MA-a-functions. MA-a-functions affected the F-a-r shape and magnitude of estimated peak active triceps muscle-tendon unit force. Depending on the MA-a-function used, the triceps was solely operating on the ascending limb (n = 2), on the ascending limb and plateau region (n = 12), or on the ascending limb, plateau region and descending limb of the F-a-r (n = 1). According to our findings, the estimated triceps muscle-tendon unit forces and the shape of the F-a-r are highly dependent on the MA-a-function used. As these functions are affected by many variables, we recommend using individual Achilles tendon MA-a-functions, ideally accounting for contraction intensity-related changes in moment arm magnitude.
Publisher
Scientific Reports
Published On
Nov 11, 2020
Authors
Denis Holzer, Florian Kurt Paternoster, Daniel Hahn, Tobias Siebert, Wolfgang Seiberl
Tags
Achilles tendon
moment arm
force-angle relationship
triceps surae
plantarflexion
muscle-tendon unit
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