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MR Imaging of Normal and Matrix-depleted Cartilage: Correlation with Biomechanical Function and Biochemical Composition¹

¹ From the Orthopaedic Research Laboratory, Departments of Biomedical Engineering and Orthopaedic Surgery (J.S.W., K.J.S., C.Y., J.R.O.) and Department of Radiology (K.A.K., D.G.D.), Virginia Commonwealth University, 1112 E Clay St, 325 McGuire Annex, PO Box 980694, Richmond, VA 23298; and Commonwealth Radiology, Richmond, Va (D.G.D.). Received December 7, 2001; revision requested January 19, 2002; final revision received December 12; accepted January 14, 2003. Supported in part by a grant from Virginia’s Commonwealth Health Research Board. Address correspondence to J.S.W. (e-mail: jswayne@vcu.edu).

PURPOSE: To correlate articular cartilage function, as reflected in biomechanical properties and biochemical composition, with magnetic resonance (MR) imaging parameters of normal articular cartilage and cartilage partially depleted of matrix components.

MATERIALS AND METHODS: Normal articular cartilage from 12 porcine patellae was evaluated biomechanically, biochemically, and with MR imaging (with and without gadolinium enhancement). The patellae were then enzymatically treated to deplete the matrix of either collagen or proteoglycan and then reevaluated biomechanically, biochemically, and with MR imaging. Correlations between cartilaginous tissue function and MR imaging parameters were made. Analysis of variance was performed to assess the effect of enzymatic treatment on measured parameters. Linear correlations among the MR imaging, biochemical, and biomechanical parameters were performed to determine the strengths of the relationships. P < .05 indicated statistically significant differences.

RESULTS: Biochemical, biomechanical, and MR analyses enabled detection of changes caused by matrix depletion (P < .05). T2 was the most useful MR imaging parameter for distinguishing proteoglycan loss from collagen loss. T2 correlated significantly with both biomechanical modulus (indicative of cartilage stiffness; P < .001, R² = 0.51) and biochemical proteoglycan content (P < .001, R² = 0.44). Differentiation between proteoglycan loss and collagen loss in terms of T1 improved with gadolinium enhancement. With gadolinium enhancement, proteoglycan depletion was associated with a greater decrease in T1 than collagen depletion (P < .05).

CONCLUSION: An association between biochemical and biomechanical functional status and MR imaging parameters of articular cartilage was demonstrated. Linear correlations existed between modulus and proteoglycan content in terms of T2. Additionally, proteoglycan loss and collagen loss had differing effects on gadolinium-enhanced T1 when it was expressed as the ratio of T1 after gadolinium enhancement/T1 before gadolinium enhancement.

© RSNA, 2003

Index terms: Experimental study • Cartilage, MR, 453.121411, 453.121413, 453.121416, 453.12143, 453.12144, 453.12146 • Magnetic resonance (MR), experimental studies, 453.121411, 453.121413, 453.121416, 453.12143, 453.12144, 453.12146 • Magnetic resonance (MR), tissue characterization, 453.12146 • Patella

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