CQUniversity
Browse

File(s) not publicly available

Influence of altered geometry and material properties on tissue stress distribution under load in tendinopathic Achilles tendons – A subject-specific finite element analysis

journal contribution
posted on 2019-03-12, 00:00 authored by VB Shim, W Hansen, R Newsham-West, L Nuri, Steven ObstSteven Obst, C Pizzolato, DG Lloyd, RS Barrett
Achilles tendon material properties and geometry are altered in Achilles tendinopathy. The purpose of this study was to determine the relative contributions of altered material properties and geometry to free Achilles tendon stress distribution during a sub-maximal contraction in tendinopathic relative to healthy tendons. Tendinopathic (n = 8) and healthy tendons (n = 8) were imaged at rest and during a sub-maximal voluntary isometric contraction using three-dimensional freehand ultrasound. Images were manually segmented and used to create subject-specific finite element models. The resting cross-sectional area of the free tendon was on average 31% greater for the tendinopathic compared to healthy tendons. Material properties for each tendon were determined using a numerical parameter optimisation approach that minimised the difference in experimentally measured longitudinal strain and the strain predicted by the finite element model under submaximal loading conditions for each tendon. The mean Young's modulus for tendinopathic tendons was 53% lower than the corresponding control value. Finite element analyses revealed that tendinopathic tendons experience 24% less stress under the same submaximal external loading conditions compared to healthy tendons. The lower tendon stress in tendinopathy was due to a greater influence of tendon cross-sectional area, which alone reduced tendon stress by 30%, compared to a lower Young's modulus, which alone increased tendon stress by 8%. These findings suggest that the greater tendon cross-sectional area observed in tendinopathy compensates for the substantially lower Young's modulus, thereby protecting pathological tendon against excessive stress. © 2018

Funding

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

History

Volume

82

Start Page

142

End Page

148

Number of Pages

7

eISSN

1873-2380

ISSN

0021-9290

Publisher

Pergamon Press, UK

Peer Reviewed

  • Yes

Open Access

  • Yes

Acceptance Date

2018-10-20

External Author Affiliations

University of Auckland; Griffith University

Era Eligible

  • Yes

Journal

Journal of Biomechanics

Usage metrics

    CQUniversity

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC