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EP1.52 Clinical and Radiographic Predictors of Labral and Cartilage Damage in Femoroacetabular Impingement: A multicenter prospective study
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EP1.52 Clinical and Radiographic Predictors of Labral and Cartilage Damage in Femoroacetabular Impingement: A multicenter prospective study

Kyle O’Connor, George Grammatopoulos, Aaron Krych, Robert Westermann, Christopher Larson, John C. Clohisy, ANCHOR Study Group and Jeffrey Nepple
Journal of hip preservation surgery, Vol.12(Suppl 1), pp.i51-i51
03/27/2025
DOI: 10.1093/jhps/hnaf011.162
PMCID: PMC11953952
url
https://doi.org/10.1093/jhps/hnaf011.162View
Published (Version of record) Open Access

Abstract

Introduction : Femoroacetabular impingement commonly causes labral and cartilage damage. Understanding what clinical and CT-morphological factors are associated with increased labral and acetabular cartilage damage may give insight into the FAI pathophysiology. The present study aims to identify factors associated with labral and cartilage damage. Method : This is a prospective, multicenter cohort of patients undergoing primary arthroscopy for treatment of symptomatic FAI. Enrollment was between 2020 and 2022. The current study investigated predictive factors of advanced labral damage (detachment or full-thickness tear length >4cm) and advanced acetabular cartilage damage (delamination or full-thickness defect ≥200mm2). Finally, we performed external validation for the previously reported RAPID score that predicts high-grade cartilage injury. Results : There were 647 patients in the cohort. For labral injuries, there were 384/647 (59.4%) detachments and 154/647 (23.8%) full-thickness defects, with labral tears ≥4cm was present in 100/558 (17.9%) hips. Older age (OR:1.04, p=0.002), males (OR:1.83,p=0.005), and larger alpha angles at 2:00 (OR:1.02,p=0.04) were associated with full-thickness labral injuries. Older age (OR:1.06,p<0.001) and larger alpha angles at 2:00 (OR:1.03,p=0.01) were associated with tears ≥4cm. 258/679 (38.0%) patients had delamination or full-thickness cartilage defects. Older age (OR:1.09,p<0.001), males (OR:1.91 p=0.003), decreased IRF (OR:0.95,p<0.001), higher femoral version (OR:1.02,p=0.04), and larger alpha angles at 1:30 (OR:1.06,p<0.001) were associated with delamination or defect cartilage injuries. Advanced acetabular cartilage damage ≥200mm2 was present in 109/679 (16.8%) hips and was associated with larger alpha angles at 2:00 (OR:1.07,p<0.001), decreased IRF (OR:0.95,p<0.001), and males (OR:2.52,p=0.002), and age (OR:1.05,p=0.002). For RAPID score external validation, we used our data for their model (sex, Tonnis OA Grade, radiographic alpha angle) and found an AUC of 0.685. With an adjusted model using CT alpha angles, AUC improved to 0.703. Our final model improved the AUC to 0.809 and included age, sex, IRF, femoral version, and CT alpha angles. Conclusion : FAI commonly has associated labral and cartilage injuries. The current study found multiple predictive factors for advanced labral and cartilage injuries as well as for larger lesions. A model including age, sex, IRF, femoral version, and CT alpha angles appears to best predict acetabular cartilage damage. Further research should investigate how these affect outcomes.
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