Journal of Experimental Orthopaedics (Jan 2023)
Interference screws manufactured from magnesium display similar primary stability for soft tissue anterior cruciate ligament graft fixation compared to a biocomposite material – a biomechanical study
Abstract
Abstract Purpose Biodegradable interference screws (IFS) can be manufactured from different biomaterials. Magnesium was previously shown to possess osteoinductive properties, making it a promising material to promote graft‐bone healing in anterior cruciate ligament reconstruction (ACLR). The purpose of this study was to compare IFS made from magnesium to a contemporary biocomposite IFS. Methods In a porcine model of ACL reconstruction, deep porcine flexor tendons were trimmed to a diameter of 8 mm, sutured in Krackow technique, and fixed with either 8 × 30 mm biocomposite IFS (Bc‐IFS) or 8 × 30 mm magnesium IFS (Mg‐IFS) in an 8 mm diameter bone tunnel in porcine tibiae. Cyclic loading for 1000 cycles from 0 to 250 N was applied, followed by load to failure testing. Elongation, load to failure and stiffness of the tested constructs was determined. Results After 1000 cycles at 250 N, elongation was 4.8 mm ± 1.5 in the Bc‐IFS group, and 4.9 mm ± 1.5 in the Mg‐IFS group. Load to failure was 649.5 N ± 174.3 in the Bc‐IFS group, and 683.8 N ± 116.5 in the Mg‐IFS group. Stiffness was 125.3 N/mm ± 21.9 in the Bc‐IFS group, and 122.5 N/mm ± 20.3 in the Mg‐IFS group. No significant differences regarding elongation, load to failure and stiffness between Bc‐IFS and Mg‐IFS were observed. Conclusion Magnesium IFS show comparable biomechanical primary stability in comparison to biocomposite IFS and may therefore be an alternative to contemporary biodegradable IFS.
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