Objectives: Animal studies suggest regional unloading of the knee due to flexion contracture (FC) results in cartilage loss in the anterior tibia. We looked for an association between the range of knee extension and articular cartilage thickness in the tibia of patients with knee OA, using quantitative MRI data from the OA Initiative.
Methods: Baseline knee extension was measured using a goniometer. Cartilage thickness was measured using 3-Tesla coronal MRI images of the knee. The tibia articular cartilage was segmented into medial and lateral regions, then further divided into anterior, central and posterior subregions. We evaluated differences between participants with and without a knee FC and associations between knee extension and cartilage thickness, including percentage denudation of bones (0 mm thickness), using linear models.
Results: A total of 596 participants were included. Participants with a knee FC had a larger percentage of denuded bone in the anterolateral tibia vs participants without FC (2.2 ± 0.7% vs 0.4 ± 0.1%; P = 0.006), and knee extension was associated with anterolateral tibia denuded bone (r = 0.16, P < 0.001). After correcting for demographics, knee alignment, and OA severity, presence of FC and lost knee extension were associated with the percentage of denuded bone in the anterolateral tibia [β = 1.702 (0.634-2.770) and β = 0.261 (95% CI 0.134, 0.388), respectively].
Conclusion: While causation cannot be determined in this study, limitation in knee extension was statistically associated with the percentage of denuded bone in the anterolateral tibia. These novel data support that maintaining range of motion over the entire joint surface may help preserve articular cartilage health.
Keywords: MRI; OA; cartilage; knee; knee contracture.
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