Tissue-Specific Failure Phenotypes of the Knee Extensor Mechanism Across Skeletal Maturity in Anterior Knee Pain

BackgroundAnterior knee pain (AKP) is common in adolescent athletes and encompasses heterogeneous osseous and soft tissue pathologies, yet its developmental mechanisms remain poorly integrated. HypothesisPain-generating tissues within the knee extensor mechanism are redistributed from osseous to soft tissue structures with skeletal maturation. Study DesignRetrospective observational cohort study. Level of EvidenceLevel 3. MethodsA total of 1,595 patients with sports-related knee injuries (2017-2025) were included. Skeletal maturity was determined by proximal tibial physeal status on radiographs, classifying participants into open-physes (n = 707) and closed-physes (n = 888) groups. AKP was classified into bony and non-bony subtypes based on maximal tenderness. Prevalence was compared using odds ratios (ORs) with 95% confidence intervals (CIs). ResultsOverall, 575 patients (36.1%) had AKP. AKP was more prevalent in the open-physes group than in the closed-physes group (60.1% vs 16.9%; OR, 7.4; 95% CI, 5.9-9.3; p < 0.001). Bony AKP showed a marked difference (42.4% vs 3.7%; OR, 19.1; 95% CI, 12.8-28.6; p < 0.001), whereas non-bony AKP showed only a modest difference (17.7% vs 13.2%; OR, 1.4; 95% CI, 1.1-1.9; p = 0.013). ConclusionThe association between AKP and skeletal maturity was primarily driven by bony AKP, supporting structural redistribution of pain-generating tissues during growth. Clinical RelevanceTenderness-based classification may aid identification of tissue-specific vulnerability and inform growth-stage-specific load management.