PURPOSE: Interference screw fixation of hamstring tendon grafts in bone has to overcome the challenges that tendons have a slippery surface and viscoelastically adapt under pressure. As the typical failure mode of the graft is to slip past the interference screw, it was hypothesized that the position and configuration of the graft end may be of influence on the fixation strength. METHODS: Different configurations of the graft ending and its effect to primary fixation with interference screws after viscoelastic adaptation were tested in six groups: I: graft and the screw inserted at the same depth, II/III: the graft overlaps the tip of the screw (interference screw of 28 and 19 mm in length, respectively), IV: strengthening of the graft ending with additional suture knots, V: Endopearl, respectively, and VI: effect of partial retraction of the screw after excessive insertion. In vitro tests were performed with fresh calf tendon grafts and interference screws in bone tunnels (fresh porcine distal femur) all of 8 mm in diameter. RESULTS: The relative position of the graft ending to the tip of the interference screw thereby was recognized as a significant factor on pullout forces. Further strengthening at the graft endings with additional suture knots or an Endopearl device could improve primary hold as well. CONCLUSIONS: Better fixation strength is achieved if the tip of interference screw does not extend past the end of a tendon graft. Enforcement of the tendon end with sutures or an implant can further improve fixation.
PURPOSE: Interference screw fixation of hamstring tendon grafts in bone has to overcome the challenges that tendons have a slippery surface and viscoelastically adapt under pressure. As the typical failure mode of the graft is to slip past the interference screw, it was hypothesized that the position and configuration of the graft end may be of influence on the fixation strength. METHODS: Different configurations of the graft ending and its effect to primary fixation with interference screws after viscoelastic adaptation were tested in six groups: I: graft and the screw inserted at the same depth, II/III: the graft overlaps the tip of the screw (interference screw of 28 and 19 mm in length, respectively), IV: strengthening of the graft ending with additional suture knots, V: Endopearl, respectively, and VI: effect of partial retraction of the screw after excessive insertion. In vitro tests were performed with fresh calf tendon grafts and interference screws in bone tunnels (fresh porcine distal femur) all of 8 mm in diameter. RESULTS: The relative position of the graft ending to the tip of the interference screw thereby was recognized as a significant factor on pullout forces. Further strengthening at the graft endings with additional suture knots or an Endopearl device could improve primary hold as well. CONCLUSIONS: Better fixation strength is achieved if the tip of interference screw does not extend past the end of a tendon graft. Enforcement of the tendon end with sutures or an implant can further improve fixation.
Authors: R Becker; D Voigt; C Stärke; M Heymann; G A Wilson; W Nebelung Journal: Knee Surg Sports Traumatol Arthrosc Date: 2001-06-21 Impact factor: 4.342
Authors: Andrew R Duffee; Jeffrey A Brunelli; John Nyland; Robert Burden; Akbar Nawab; David Caborn Journal: Knee Surg Sports Traumatol Arthrosc Date: 2006-09-09 Impact factor: 4.342
Authors: Philipp Kruppa; Anne Flies; Dag Wulsten; Robert Collette; Georg N Duda; Klaus-Dieter Schaser; Roland Becker; Sebastian Kopf Journal: Orthop J Sports Med Date: 2020-05-04
Authors: Lothar Schmechel Dobke; João Artur Bonadiman; Osmar Valadão Lopes; Paulo Renato Saggin; Charles Leonardo Israel; Leandro de Freitas Spinelli Journal: Rev Bras Ortop (Sao Paulo) Date: 2020-07-22