Research Information System
Arthroscopy - Journal of Arthroscopic and Related Surgery, 2025 (SCI-Expanded, Scopus)
Purpose: To evaluate the biomechanical properties and failure mechanisms of lateral extra-articular tenodesis (LET) performed using onlay staple, inlay interference screw, and onlay all-suture anchor fixation techniques. Methods: Twenty-four nonmatched pairs of human cadaveric knees were randomized to receive a cortical staple (n = 8), an interference screw (n = 8), or an all-suture anchor (n = 8). A modified Lemaire LET technique was performed for all knees using their respective fixation technique. Biomechanical testing was performed using a tensile-testing apparatus (MTS Systems). All knees were subjected to an axially directed preload cycle and subsequently assessed for cyclic and load-to-failure outcomes. Results were analyzed via analysis of variance, Kruskal-Wallis, and post-hoc Tukey tests. Results: Three staple-fixated LETs failed during the cyclic loading and were excluded from analysis. Average elongation after cyclic loading was 2.89 mm (staple), 2.06 mm (screw), and 3.51 mm (anchor) (P = .134). Average maximum load to failure was 174.1 N (staple), 250.8 N (screw), and 199.2 N (anchor), with a significant between-group difference on analysis of variance testing (P = .023). Post hoc analysis revealed staple fixation had a significantly lower maximum load than interference screw fixation (P = .026). Displacement at maximum load was significantly higher in the anchor group (22.2 mm) compared to the staple (11.3 mm) (P = .05). Conclusions: While staple fixation resulted in early failure, both interference screw and anchor fixations are viable options for LET, with suture anchors offering less rigidity under high loads when compared with either fixation strategy. However, no differences were observed in elongation during cyclic loading. Clinical Relevance: Emerging literature has revealed a 70% tunnel convergence rate when utilizing an interference screw for femoral fixation of a LET. The results of the present time-zero cadaveric study explore the role of surface-based fixation methods, given that it may mitigate convergence risk.