The biomechanics of interference screw fixation of patellar tendon anterior cruciate ligament grafts

Abstract

Twenty-seven paired human cadaveric knee specimens were used to determine the effect of surgical technique and various interference screw parameters on the pullout strength of patellar tendon femoral bone blocks. The study compared the fixation strength of endoscop ically inserted and conventional "rear-entry" screws of different diameters and lengths. In all tests the most frequent mode of failure was bone block pullout from the interference screw. There was no significant differ ence in fixation strength between 9-mm diameter screws inserted through a conventional rear-entry tech nique and 7-mm diameter screws inserted through an endoscopic technique. There was no significant effect of screw length on fixation strength. The pullout force for 20-mm long screws increased on average 120% when 7-mm diameter screws were compared with 5.5- mm diameter screws. There was no significant effect of increased screw core diameter on fixation strength. There was a weak positive correlation ( r² = 0.45) between screw insertion torque and pullout force. Our measured mean pullout force for the 7-mm endoscopi cally inserted screws of 362 ± 198 N represents 20.1 % of the failure load of the normal young adult anterior cruciate ligament. Our data indicate that properly in serted 7-mm diameter endoscopic interference screws can provide fixation strengths of patellar tendon ante rior cruciate ligament grafts equivalent to those of con ventional 9-mm diameter rear-entry, outside-in screws.