E M Spiesz
Structure and collagen crimp patterns of functionally distinct equine tendons, revealed by quantitative polarised light microscopy (qPLM)
Spiesz, E M; Thorpe, C T; Thurner, P J; Screen, H R C
C T Thorpe
P J Thurner
H R C Screen
Structure-function relationships in tendons are directly influenced by the arrangement of collagen fibres. However, the details of such arrangements in functionally distinct tendons remain obscure. This study demonstrates the use of quantitative polarised light microscopy (qPLM) to identify structural differences in two major tendon compartments at the mesoscale: fascicles and interfascicular matrix (IFM). It contrasts functionally distinct positional and energy storing tendons, and considers changes with age. Of particular note, the technique facilitates the analysis of crimp parameters, in which cutting direction artefact can be accounted for and eliminated, enabling the first detailed analysis of crimp parameters across functionally distinct tendons.
IFM shows lower birefringence (0.0013 ± 0.0001 [-]), as compared to fascicles (0.0044 ± 0.0005 [-]), indicating that the volume fraction of fibres must be substantially lower in the IFM. Interestingly, no evidence of distinct fibre directional dispersions between equine energy storing superficial digital flexor tendons (SDFTs) and positional common digital extensor tendons (CDETs) were noted, suggesting either more subtle structural differences between tendon types or changes focused in the non-collagenous components.
By contrast, collagen crimp characteristics are strongly tendon type specific, indicating crimp specialisation is crucial in the respective mechanical function. SDFTs showed much finer crimp (21.1 ± 5.5 µm) than positional CDETs (135.4 ± 20.1 µm). Further, tendon crimp was finer in injured tendon, as compared to its healthy equivalents. Crimp angle differed strongly between tendon types as well, with average of 6.5 ± 1.4° in SDFTs and 13.1 ± 2.0° in CDETs, highlighting a substantially tighter crimp in the SDFT, likely contributing to its effective recoil capacity.
Spiesz, E. M., Thorpe, C. T., Thurner, P. J., & Screen, H. R. C. (2018). Structure and collagen crimp patterns of functionally distinct equine tendons, revealed by quantitative polarised light microscopy (qPLM). Acta Biomaterialia, 70, 281-292. https://doi.org/10.1016/j.actbio.2018.01.034
|Journal Article Type||Article|
|Acceptance Date||Jan 24, 2018|
|Publication Date||Feb 2, 2018|
|Deposit Date||Feb 7, 2018|
|Publicly Available Date||Nov 21, 2020|
|Peer Reviewed||Peer Reviewed|
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