Adaptation of the Tendon to Mechanical Usage

Overview

Journal J Musculoskelet Neuronal Interact

Specialties Neurology
Orthopedics
Physiology

Date 2006 Jul 20

PMID 16849829

Citations 32

Authors

N D Reeves

Affiliations

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Abstract

Tendons primarily function as contractile force transmitters, but their mechanical properties may change dependent upon their level of mechanical usage. Using an ultrasound-based technique we have assessed tendon mechanical properties in vivo in a number of conditions representing different levels of mechanical usage. Ageing alters tendon mechanical properties; stiffness and modulus were lower in older adults by 10 and 14%, respectively, compared to young adults. Increased levels of exercise loading in old age can however partly reverse this process, as tendon stiffness and modulus were found to increase by 65 and 69%, respectively. Complete unloading due to bed rest or spinal cord injury both reduce tendon stiffness and modulus, however, only chronic unloading due to spinal cord injury seems to cause tendon atrophy. Alterations in tendon mechanical properties due to changes in the levels loading have implications for the speed of force transmission, the muscle's operating range and the likelihood of tendon strain injury.

Citing Articles

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Lariviere C, Preuss R, Coutu M, Sullivan M, Roy N, Henry S BMC Musculoskelet Disord. 2024; 25(1):358.

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The effects of plantarflexor weakness and reduced tendon stiffness with aging on gait stability.

Smith R, Shelton A, Sawicki G, Franz J PLoS One. 2024; 19(4):e0302021.

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Effect of Aging on Tendon Biology, Biomechanics and Implications for Treatment Approaches.

Kwan K, Ng K, Rao Y, Zhu C, Qi S, Tuan R Int J Mol Sci. 2023; 24(20).

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Simulations suggest walking with reduced propulsive force would not mitigate the energetic consequences of lower tendon stiffness.

Pimentel R, Sawicki G, Franz J PLoS One. 2023; 18(10):e0293331.

PMID: 37883368 PMC: 10602298. DOI: 10.1371/journal.pone.0293331.

Changes in muscle-tendon unit length-force characteristics following experimentally induced photothrombotic stroke cannot be explained by changes in muscle belly structure.

Paudyal A, Degens H, Baan G, Noort W, Slevin M, Wegen E Eur J Appl Physiol. 2021; 121(9):2509-2519.

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