Neural Shape Modeling Reveals Early and Progressive Femoral Bone Shape and Cartilage Thickness Changes After Anterior Cruciate Ligament Reconstruction

  1. Anoosha Pai S
  2. McKenzie S. White
  3. Marianne S. Black
  4. Katherine A. Young
  5. Seth L. Sherman
  6. Constance R. Chu
  7. Ashley Williams
  8. Garry E. Gold
  9. Feliks Kogan
  10. Brian A. Hargreaves
  11. Akshay S. Chaudhari
  12. Anthony A. Gatti
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Abstract

Objectives

To assess early and longitudinal post-traumatic osteoarthritis (POTA) changes in the femoral bone and cartilage following after anterior cruciate ligament reconstruction (ACLR).

Methods

ACLR and contralateral knees of 17 subjects (11M, 38±11years), and 17 matched healthy controls underwent 3T-MRI at 3-weeks, 3, 9, 18, and 30 months post-ACLR. Two neural shape models (NSMs)—B-NSM (bone-only) and BC-NSM (bone+cartilage), trained on the Osteoarthritis Initiative (OAI), encoded femoral bone and cartilage shapes. The study endpoints were shape scores (B-Score, BC-Score), regional bone surface area, and cartilage thickness. Cross-sectional and longitudinal changes were assessed with linear mixed-effects models; η p 2 evaluated sensitivity to change. Cosine similarity compared trajectories of progressive bone and cartilage shape changes in PTOA (this data) and idiopathic-OA (OAI data).

Results

At 3-weeks, ACLR knee B-Scores were significantly lower (p=0.010) than contralateral knees from surgical notchplasty. Over 30-months, ACLR knee B- and BC-Scores significantly increased (p<0.001, p<0.001) compared to baseline, with no significant change in scores of other knees. Bone surface area (η p 2 =0.01) increased from periarticular osteophyte lipping rather than subchondral plate enlargement, with concomitant region-specific femoral cartilage thinning and thickening (η p 2 =0.02). B-Score (η p 2 =0.45) was more sensitive to longitudinal change than BC-Score (η p 2 =0.30). ACLR knee bone shape changes aligned with idiopathic-OA progression (cosine similarity=0.25); cartilage thickness changes did not (cosine similarity=0.09).

Conclusion

Early and progressive bone remodeling and spatiotemporal cartilage thickness changes were observed post-ACLR. Both B- and B+C-Scores outperformed bone surface area and cartilage thickness measures in quantifying longitudinal changes in ACLR knees. ACLR bone shape features exhibited a linear progressive pattern similar to idiopathic-OA, while the cartilage thickness changes were nonlinear. NSM-derived, reader-independent, shape metrics of the bone and cartilage may serve as early biomarkers to study PTOA in ACLRs, or as quantitative endpoints for prevention and early-intervention trials.

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  1. Version published to 10.1101/2025.11.16.25340352 on medRxiv