Quantifying graft impingement in anterior cruciate ligament reconstruction

Wilson, W.T. and Hopper, G.P. and O'Boyle, M. and Henderson, L. and Blyth, M.J.G. (2022) Quantifying graft impingement in anterior cruciate ligament reconstruction. The Knee, 34. pp. 270-278. (https://doi.org/10.1016/j.knee.2022.01.001)

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Abstract

Background: Anterior cruciate ligament reconstructions (ACLR) fail at a rate of 10–15%, with graft impingement often a cause. In this study we investigate the prevalence and causes of impingement seen during ACLR surgery. Methods: We reviewed consecutive primary ACLR from 2012-2018. Graft impingement was estimated intraoperatively by placing the arthroscope through the tibial tunnel and passively extending the knee, observing how much was obscured by the lateral femoral condyle from an anterior and lateral direction. Preoperative MRI scans were used to measure the intercondylar notch; Notch Width Index (NWI) and Notch Depth Index (NDI). Positioning of the tunnels was determined on postoperative radiographs. Results: There were 283 ACLRs performed with 33 failures diagnosed on MRI (11.7%). 257 patients had complete imaging and follow up (91%). The mean age was 28 (±9) years and mean follow-up 5.3 (±1.8) years. The mean NWI was 0.26(±0.03), and NDI was 0.49(±0.06). The tibial tunnel aperture was located 42(±6) % of the way from anterior-posterior and 39(±6) % from medial-lateral. Impingement requiring a notchplasty was observed in 80% of cases, with lateral impingement more prominent. Conclusions: The amount of impingement did not correlate with tunnel position, which was located within the recommended area. There was a weak negative correlation between NWI and lateral impingement (r s = −0.16, p = 0.01), and NDI and anterior impingement (r s = −0.12, p = 0.04), therefore a smaller notch is associated with greater impingement. Despite optimal tunnel positioning, impingement still occurs in a significant number of cases therefore notchplasty should always be considered to keep revision rates low.