BACKGROUND: Sterilization of anterior cruciate ligament (ACL) allografts is an important prerequisite to prevent disease transmission. However, mechanical tissue properties are compromised by most current sterilization procedures, so that uncompromised sterilization of allografts is difficult to achieve. Hypothesis/ PURPOSE: The aim of this study was to evaluate the effect of the novel electron beam sterilization procedure on the biomechanical properties of human patellar tendon allografts at various irradiation dosages. Electron beam sterilization may be an appropriate alternative to gamma sterilization. STUDY DESIGN: Controlled laboratory study. METHODS: Thirty-two human 10-mm wide bone-patellar tendon-bone grafts were randomized into 4 groups of sterilization with 15, 25, or 34 kGy of electron beam irradiation, respectively. The grafts' biomechanical properties were evaluated at time zero. Unsterilized grafts functioned as controls. Biomechanical properties were analyzed during cyclic and load-to-failure testing. RESULTS: Strain and cyclic elongation response showed no significant differences between the groups. Electron beam irradiation had no significant effect on stiffness and failure load with the exception of 34 kGy, which resulted in a significant decrease in failure load (1300.6 +/- 229.2 N) compared with unsterilized grafts (1630.5 +/- 331.1 N). CONCLUSION: This study showed that electron beam might be an appropriate alternative in sterilization of patellar tendon allografts with minimal effect on mechanical properties of tendon grafts in vitro. Future studies will have to evaluate the effect of the process on the biological properties of allografts in vitro and in vivo. CLINICAL RELEVANCE: Terminal sterilization of patellar tendon allografts with electron beam irradiation can ensure higher safety of transplanted grafts and hence improve patient safety and acceptance.
BACKGROUND: Sterilization of anterior cruciate ligament (ACL) allografts is an important prerequisite to prevent disease transmission. However, mechanical tissue properties are compromised by most current sterilization procedures, so that uncompromised sterilization of allografts is difficult to achieve. Hypothesis/ PURPOSE: The aim of this study was to evaluate the effect of the novel electron beam sterilization procedure on the biomechanical properties of human patellar tendon allografts at various irradiation dosages. Electron beam sterilization may be an appropriate alternative to gamma sterilization. STUDY DESIGN: Controlled laboratory study. METHODS: Thirty-two human 10-mm wide bone-patellar tendon-bone grafts were randomized into 4 groups of sterilization with 15, 25, or 34 kGy of electron beam irradiation, respectively. The grafts' biomechanical properties were evaluated at time zero. Unsterilized grafts functioned as controls. Biomechanical properties were analyzed during cyclic and load-to-failure testing. RESULTS: Strain and cyclic elongation response showed no significant differences between the groups. Electron beam irradiation had no significant effect on stiffness and failure load with the exception of 34 kGy, which resulted in a significant decrease in failure load (1300.6 +/- 229.2 N) compared with unsterilized grafts (1630.5 +/- 331.1 N). CONCLUSION: This study showed that electron beam might be an appropriate alternative in sterilization of patellar tendon allografts with minimal effect on mechanical properties of tendon grafts in vitro. Future studies will have to evaluate the effect of the process on the biological properties of allografts in vitro and in vivo. CLINICAL RELEVANCE: Terminal sterilization of patellar tendon allografts with electron beam irradiation can ensure higher safety of transplanted grafts and hence improve patient safety and acceptance.
Authors: Stephen Tottey; Scott A Johnson; Peter M Crapo; Janet E Reing; Li Zhang; Hongbin Jiang; Christopher J Medberry; Brandon Reines; Stephen F Badylak Journal: Biomaterials Date: 2010-09-25 Impact factor: 12.479
Authors: A Hoburg; S Keshlaf; T Schmidt; M Smith; U Gohs; C Perka; A Pruss; S Scheffler Journal: Knee Surg Sports Traumatol Arthrosc Date: 2011-05-04 Impact factor: 4.342
Authors: T Schmidt; D Grabau; J H Grotewohl; U Gohs; A Pruß; M Smith; S Scheffler; A Hoburg Journal: Knee Surg Sports Traumatol Arthrosc Date: 2016-07-20 Impact factor: 4.342
Authors: Simona Walker; Jessy Schönfelder; Sems-Malte Tugtekin; Christiane Wetzel; Michael C Hacker; Michaela Schulz-Siegmund Journal: Tissue Eng Part C Methods Date: 2018-12 Impact factor: 3.056