Gender-specific in vivo measurement of the structural and mechanical properties of the human patellar tendon

Authors

  • Gladys N.L. Onambélé,

    Corresponding author
    1. Institute of Biophysical and Clinical Research into Human Movement, Department of Exercise & Sport Sciences, Manchester Metropolitan University, Hassall Road, Alsager ST7 2HL, United Kingdom
    • Institute of Biophysical and Clinical Research into Human Movement, Department of Exercise & Sport Sciences, Manchester Metropolitan University, Hassall Road, Alsager ST7 2HL, United Kingdom Telephone: +44 161 247 5594; Fax: +44 161 247 6375.
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  • Katherine Burgess,

    1. Centre for Rehabilitation and Human Performance Research, Directorate of Sport, University of Salford, Manchester M6 6PU, United Kingdom
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  • Stephen J. Pearson

    1. Centre for Rehabilitation and Human Performance Research, Directorate of Sport, University of Salford, Manchester M6 6PU, United Kingdom
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Abstract

Human patellar tendon stress (σ), strain (ε), stiffness (K), and tensile or Young's modulus (E), are determined in vivo through voluntary isometric contractions monitored with B-mode ultrasonography. The limitations in previous studies are: (1) they have generally not accounted for the fact that the distal attachment of the patellar tendon (the tibial tuberosity) also displaces; thus, they have underestimated ε (and, hence, injury risk) while overestimating K; (2) no gender effect has been studied despite the fact that females are seen to have higher incidences of tendon-related injuries. The current investigation therefore aimed to determine the gender specific values of σ, ε, K, and E of the patellar tendon while also accounting for distal displacement of the patellar tendon. Healthy young males (aged 23.1 ± 1.3 years, n = 10) and females (aged 21.3 ±0.9 years, n = 10) were tested. The maximal ε of the young males was ∼5–10% higher than that reported in earlier literature. Average female versus male values for ε, σ, K, and E, taken at the same force level as the males for comparison purposes, were respectively 10.6 ± 1.0 versus 9.0 ± 1.0%, 36.9 ± 1.4 versus 28.9 ± 0.9 MPa, 1053 ± 108 versus 1652 ± 216 N · mm−1, and 0.61 ± 0.08 versus 0.68 ± 0.10 GPa (p < 0.05). There are gender differences in tendon structural and mechanical properties. The current methodology may be useful in a clinical context where early prediction of injury risk and/or monitoring of reconstructed tendon needs to be an accurate, objective, and reliable method if optimal functionality is to be achieved. © 2007 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 25:1635–1642, 2007

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