Abstract
The hand-held Arthro-BST™ device is used to map electromechanical properties of articular cartilage. The purpose of the study was to evaluate correlation of electromechanical properties with histological, biochemical and biomechanical properties of cartilage. Electromechanical properties (quantitative parameter (QP)) of eight human distal femurs were mapped manually exvivo using the Arthro-BST (1 measure/site, 5s/measure, 3209 sites). Osteochondral cores were then harvested from different areas on the femurs and assessed with the Mankin histological score. Prior to histoprocessing, cores were tested in unconfined compression. A subset of the cores was analyzed with polarized light microscopy (PLM) to assess collagen structure. Biochemical assays were done on additional cores to obtain water content and glycosaminoglycan (GAG) content. The QP corresponding to each core was calculated by averaging all QPs collected within 6mm of the core center. The electromechanical QP correlated strongly with both the Mankin score and the PLM score (r=0.73, P<0.0001 and r=-0.70, P<0.0001 respectively) thus accurately reflecting tissue quality and collagen architecture. Electromechanical QP also correlated strongly with biomechanical properties including fibril modulus (r=-0.76, P<0.0001), matrix modulus (r=-0.69, P<0.0001), and log of permeability (r=0.72, P<0.0001). The QP correlated weakly with GAG per wet weight and with water content (r=-0.50, P<0.0003 and r=0.39, P<0.006 respectively). Non-destructive electromechanical QP measurements correlate strongly with histological scores and biomechanical parameters providing a rapid and reliable assessment of articular cartilage quality.
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