David John Saxby1,2,3,4, Adam L Bryant5, Ans Van Ginckel5, Yuanyuan Wang6, Xinyang Wang5, Luca Modenese7, Pauline Gerus8, Jason M Konrath9,10,11, Karine Fortin5, Tim V Wrigley5, Kim L Bennell5, Flavia M Cicuttini6, Christopher Vertullo9,11,12, Julian A Feller13,14, Tim Whitehead14, Price Gallie15, David G Lloyd9,10,11. 1. Core Group for Innovation in Health Technology, Menzies Health Institute Queensland, Griffith University, Gold Coast, Australia. d.saxby@griffith.edu.au. 2. School of Allied Health Sciences, Griffith University, Gold Coast, Australia. d.saxby@griffith.edu.au. 3. Gold Coast Orthopaedic Research and Education Alliance, Griffith University, Gold Coast, Australia. d.saxby@griffith.edu.au. 4. Room 2.05, G02, Clinical Sciences 1, Griffith University, Gold Coast Campus, Gold Coast, 4222, Australia. d.saxby@griffith.edu.au. 5. Centre for Health, Exercise and Sports Medicine, University of Melbourne, Melbourne, Australia. 6. Department of Epidemiology and Preventive Medicine, Monash University, Melbourne, Australia. 7. Department of Civil and Environmental Engineering, Imperial College London, London, UK. 8. Laboratory of Human Motion, Education and Health, University of Nice Sophia-Antipolis, Nice, France. 9. Core Group for Innovation in Health Technology, Menzies Health Institute Queensland, Griffith University, Gold Coast, Australia. 10. School of Allied Health Sciences, Griffith University, Gold Coast, Australia. 11. Gold Coast Orthopaedic Research and Education Alliance, Griffith University, Gold Coast, Australia. 12. Knee Research Australia, Gold Coast, Australia. 13. OrthoSport Victoria, Epworth Richmond, Melbourne, Australia. 14. College of Science, Health and Engineering, La Trobe University, Melbourne, Australia. 15. Coast Orthopaedics, Gold Coast, Australia.
Abstract
PURPOSE: External loading of osteoarthritic and healthy knees correlates with current and future osteochondral tissue state. These relationships have not been examined following anterior cruciate ligament reconstruction. We hypothesised greater magnitude tibiofemoral contact forces were related to increased prevalence of osteochondral pathologies, and these relationships were exacerbated by concomitant meniscal injury. METHODS: This was a cross-sectional study of 100 individuals (29.7 ± 6.5 years, 78.1 ± 14.4 kg) examined 2-3 years following hamstring tendon anterior cruciate ligament reconstruction. Thirty-eight participants had concurrent meniscal pathology (30.6 ± 6.6 years, 83.3 ± 14.3 kg), which included treated and untreated meniscal injury, and 62 participants (29.8 ± 6.4 years, 74.9 ± 13.3 kg) were free of meniscal pathology. Magnetic resonance imaging of reconstructed knees was used to assess prevalence of tibiofemoral osteochondral pathologies (i.e., cartilage defects and bone marrow lesions). A calibrated electromyogram-driven neuromusculoskeletal model was used to predict medial and lateral tibiofemoral compartment contact forces from gait analysis data. Relationships between contact forces and osteochondral pathology prevalence were assessed using logistic regression models. RESULTS: In patients with reconstructed knees free from meniscal pathology, greater medial contact forces were related to reduced prevalence of medial cartilage defects (odds ratio (OR) = 0.7, Wald χ2(2) = 7.9, 95% confidence interval (CI) = 0.50-95, p = 0.02) and medial bone marrow lesions (OR = 0.8, Wald χ2(2) = 4.2, 95% CI = 0.7-0.99, p = 0.04). No significant relationships were found in lateral compartments. In reconstructed knees with concurrent meniscal pathology, no relationships were found between contact forces and osteochondral pathologies. CONCLUSIONS: In patients with reconstructed knees free from meniscal pathology, increased contact forces were associated with fewer cartilage defects and bone marrow lesions in medial, but not, lateral tibiofemoral compartments. No significant relationships were found between contact forces and osteochondral pathologies in reconstructed knees with meniscal pathology for any tibiofemoral compartment. Future studies should focus on determining longitudinal effects of contact forces and changes in osteochondral pathologies. LEVEL OF EVIDENCE: IV.
PURPOSE: External loading of osteoarthritic and healthy knees correlates with current and future osteochondral tissue state. These relationships have not been examined following anterior cruciate ligament reconstruction. We hypothesised greater magnitude tibiofemoral contact forces were related to increased prevalence of osteochondral pathologies, and these relationships were exacerbated by concomitant meniscal injury. METHODS: This was a cross-sectional study of 100 individuals (29.7 ± 6.5 years, 78.1 ± 14.4 kg) examined 2-3 years following hamstring tendon anterior cruciate ligament reconstruction. Thirty-eight participants had concurrent meniscal pathology (30.6 ± 6.6 years, 83.3 ± 14.3 kg), which included treated and untreated meniscal injury, and 62 participants (29.8 ± 6.4 years, 74.9 ± 13.3 kg) were free of meniscal pathology. Magnetic resonance imaging of reconstructed knees was used to assess prevalence of tibiofemoral osteochondral pathologies (i.e., cartilage defects and bone marrow lesions). A calibrated electromyogram-driven neuromusculoskeletal model was used to predict medial and lateral tibiofemoral compartment contact forces from gait analysis data. Relationships between contact forces and osteochondral pathology prevalence were assessed using logistic regression models. RESULTS: In patients with reconstructed knees free from meniscal pathology, greater medial contact forces were related to reduced prevalence of medial cartilage defects (odds ratio (OR) = 0.7, Wald χ2(2) = 7.9, 95% confidence interval (CI) = 0.50-95, p = 0.02) and medial bone marrow lesions (OR = 0.8, Wald χ2(2) = 4.2, 95% CI = 0.7-0.99, p = 0.04). No significant relationships were found in lateral compartments. In reconstructed knees with concurrent meniscal pathology, no relationships were found between contact forces and osteochondral pathologies. CONCLUSIONS: In patients with reconstructed knees free from meniscal pathology, increased contact forces were associated with fewer cartilage defects and bone marrow lesions in medial, but not, lateral tibiofemoral compartments. No significant relationships were found between contact forces and osteochondral pathologies in reconstructed knees with meniscal pathology for any tibiofemoral compartment. Future studies should focus on determining longitudinal effects of contact forces and changes in osteochondral pathologies. LEVEL OF EVIDENCE: IV.
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