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Free Achilles tendon strain during selected rehabilitation, locomotor, jumping, and landing tasks

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Version 2 2023-05-02, 23:51
Version 1 2023-04-26, 01:46
journal contribution
posted on 2023-05-02, 23:51 authored by Daniel Devaprakash, David F Graham, Rod S Barrett, David G Lloyd, Steven ObstSteven Obst, Ben Kennedy, Kahlee L Adams, Ryan J Kiely, Adam Hunter, Nicole Vlahovich, David L Pease, Vickie B Shim, Thor F Besier, Minghao Zheng, Jill L Cook, Claudio Pizzolato
A better understanding of the strains experienced by the Achilles tendon during commonly prescribed exercises and locomotor tasks is needed to improve efficacy of Achilles tendon training and rehabilitation programs. The aim of this study was to estimate in vivo free Achilles tendon strain during selected rehabilitation, locomotor, jumping, and landing tasks. Sixteen trained runners with no symptoms of Achilles tendinopathy participated in this study. Personalised free Achilles tendon moment arm and force-strain curve were obtained from imaging data and used in conjunction with motion capture and surface electromyography to estimate free Achilles tendon strain using electromyogram-informed neuromusculoskeletal modelling. There was a strong correspondence between Achilles tendon force estimates from the present study and experimental data reported in the literature (R2 > 0.85). The average tendon strain was highest for maximal hop landing (8.8±1.6%), lowest for walking at 1.4 m/s (3.1±0.8%) and increased with locomotor speed during running (run 3.0 m/s: 6.5±1.6%; run 5.0 m/s: 7.9±1.7%) and during heel rise exercise with added mass (BW: 5.8±1.3%; 1.2 BW: 6.9±1.7%). The peak tendon strain was highest during running (5 m/s: 13.7±2.5%) and lowest during walking (1.4 m/s: 7±1.8%). Overall findings provide a preliminary evidence base for exercise selection to maximise anabolic tendon remodelling during training and rehabilitation of the Achilles tendon.

Funding

Category 1 - Australian Competitive Grants (this includes ARC, NHMRC)

History

Volume

132

Issue

4

Start Page

956

End Page

965

Number of Pages

10

eISSN

1522-1601

ISSN

8750-7587

Publisher

American Physiological Society

Language

en

Peer Reviewed

  • Yes

Open Access

  • No

Acceptance Date

2022-02-04

External Author Affiliations

Australian Institute of Sport; La Trobe University; University of Western Australia

Era Eligible

  • Yes

Medium

Print-Electronic

Journal

Journal of Applied Physiology

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