Site- and Zone-Dependent Changes in Proteoglycan Content and Biomechanical Properties of Bluntly and Sharply Grooved Equine Articular Cartilage

Author:

Mohammadi AliORCID,te Moller Nikae C. R.ORCID,Ebrahimi MohammadhosseinORCID,Plomp Saskia,Brommer HaroldORCID,van Weeren P. RenéORCID,Mäkelä Janne T. A.ORCID,Töyräs JuhaORCID,Korhonen Rami K.ORCID

Abstract

AbstractIn this study, we mapped and quantified changes of proteoglycan (PG) content and biomechanical properties in articular cartilage in which either blunt or sharp grooves had been made, both close to the groove and more remote of it, and at the opposing joint surface (kissing site) in equine carpal joints. In nine adult Shetland ponies, standardized blunt and sharp grooves were surgically made in the radiocarpal and middle carpal joints of a randomly chosen front limb. The contralateral control limb was sham-operated. At 39 weeks after surgery, ponies were euthanized. In 10 regions of interest (ROIs) (six remote from the grooves and four directly around the grooves), PG content as a function of tissue-depth and distance-to-groove was estimated using digital densitometry. Biomechanical properties of the cartilage were evaluated in the six ROIs remote from the grooves. Compared to control joints, whole tissue depth PG loss was found in sites adjacent to sharp and, to a larger extent, blunt grooves. Also, superficial PG loss of the surgically untouched kissing cartilage layers was observed. Significant PG loss was observed up to 300 µm (sharp) and at 500 µm (blunt) from the groove into the surrounding tissue. Equilibrium modulus was lower in grooved cartilage than in controls. Grooves, in particular blunt grooves, gave rise to severe PG loss close to the grooved sites and to mild degeneration more remote from the grooves in both sharply and bluntly grooved cartilage and at the kissing sites, resulting in loss of mechanical strength over the 9-month period.

Funder

University of Eastern Finland’s Doctoral Programme in 407 Science, Technology and Computing

Academy of Finland

Sigrid Juséliuksen Säätiö

Emil Aaltosen Säätiö

Dutch Arthritis Association

WO Graduate Programme 410 Grant

University of Eastern Finland (UEF) including Kuopio University Hospital

Publisher

Springer Science and Business Media LLC

Subject

Biomedical Engineering

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