Biceps Tenodesis: Biomechanical Assessment of 3 Arthroscopic Suprapectoral Techniques.

Biceps tenodesis maintains the cosmetic appearance and length-tension relationship of the biceps with an associated predictable clinical outcome compared with tenotomy. Arthroscopic suprapectoral techniques are being developed to avoid the disadvantages of the open subpectoral approach. This study biomechanically compared 3 arthroscopic suprapectoral biceps tenodesis techniques performed with a suture anchor with lasso loop technique, an interference screw, and a compressive rivet. For a total of 15 randomized paired tests, 15 pairs of human cadaveric shoulders were used to test 1 technique vs another 5 times with 3 customized setups. Biomechanical testing was performed with an electromechanical testing system. The tendon was preloaded with 10 N and cyclically loaded at 0 to 40 N for 50 cycles. Load to failure testing was performed at 1 mm/s until failure occurred. The compressive rivet, interference screw, and suture anchor with lasso loop had mean load to failure of 97.1 N, 146.4 N, and 157.6 N, respectively. The difference in ultimate strength between the suture anchor with lasso loop and the compressive rivet was statistically significant (P=.04). No significant differences were found between the suture anchor with lasso loop and the interference screw (P=.93) or between the interference screw and the rivet (P=.10). When adjusted for sex, the load to failure overall among the 3 constructs was not significantly different. All 3 techniques had a different predominant mechanism of failure. The suture anchor with lasso loop showed superior load to failure compared with the compressive rivet. The minimum load to failure required to achieve clinically reliable biceps tenodesis is unknown. [Orthopedics. 2017; 40(6):e1009-e1016.].