Subchondral bone density and trabecular morphometry mediate the association between knee malalignment and osteophyte progression in osteoarthritis: data from the osteoarthritis initiative
摘要
To investigate whether subchondral bone mediates the relationship between knee malalignment and osteophyte progression.
DesignData were obtained from the Osteoarthritis Initiative (OAI) and two ancillary imaging studies. Two analytic cohorts were defined by mediator type: a DXA cohort (periarticular bone mineral density [paBMD]) and an MRI cohort (trabecular morphometry: aBVF, aTb.N, aTb.Sp, aTb.Th). Alignment (hip–knee–ankle [HKA] angle) was assessed at either 12 or 24 months under the Lower Limb Alignment study; bone measures were obtained at either 30 or 36 months through the Bone Ancillary Study; and radiographic osteophyte scores were evaluated at baseline and 48 months. Knees were categorized into five alignment groups (neutral, mild/severe varus, mild/severe valgus). Analyses used generalized estimating equations and multivariable linear regression with non-parametric bootstrapping.
ResultsA total of 826 knees (DXA cohort) [ (mean age 61.9 years (SD 9.1), BMI 29.8 kg/m2 (SD 4.5); 60.5% female; 79.8% KL grade ≥ 2)] and 401 knees (MRI cohort) were analyzed. Only severe varus and valgus were associated with osteophyte progression. For severe varus, medial progression was mediated by higher medial paBMD and a higher medial-to-lateral (M:L) paBMD ratio, accounting for 20.3% and 70.7% of the total effect for the femur, and 23.2% and 65.4% for the tibia. Medial trabecular morphometry contributed to medial tibial progression, with indirect effects via higher aBVF (27.2%) and aTb.N (35.4%), and via lower aTb.Sp (12.2%). For severe valgus, lateral progression was mediated by higher lateral paBMD and a lower M:L paBMD ratio, accounting for 14.2% and 67.9% for the femur, and 9.3% and 40.7% for the tibia.
ConclusionsCompartment-specific bone measures partly mediate the association between static malalignment and osteophyte progression, suggesting that targeting bone may modify this longitudinal relationship.