Abstract
IntroductionThe fixation of the coracoid process onto the glenoid is an important step of the Latarjet procedure, and implant-associated complications are a relevant and severe problem. This study compares the fixation strength and failure mode of two biodegradable materials with stainless-steel screws.Methods24 Fresh-frozen cadaveric scapulae were divided into three groups of equal size and received a coracoid transfer. Cadavers were matched according to their bone mineral density (BMD). In group 1, small-fragment screws made of stainless steel were used. In the second group, magnesium screws were used, and in the third group, screws consisted of polylactic acid (PLLA). A continuously increasing sinusoidal cyclic compression force was applied until failure occurred, which was defined as graft displacement relative to its initial position of more than 5 mm.ResultsAt 5-mm displacement, the axial force values showed a mean of 374 ± 92 N (range 219–479 N) in group 1 (steel). The force values in group 2 (magnesium) had a mean of 299 ± 57 N (range 190–357 N). In group 3 (PLLA), failure occurred at 231 ± 83 N (range 109–355 N). The difference between group 1 (steel) and group 2 (magnesium) was not statistically significant (P = 0.212), while the difference between group 1 (steel) and group 3 (PLLA) was significant (P = 0.005).ConclusionStainless-Steel screws showed the highest stability. However, all three screw types showed axial force values of more than 200 N. Stainless steel screws and PLLA screws showed screw cut-out as the most common failure mode, while magnesium screws showed screw breakage in the majority of cases.EvidenceControlled laboratory study.
Highlights
The fixation of the coracoid process onto the glenoid is an important step of the Latarjet procedure, and implantassociated complications are a relevant and severe problem
Reliable fixation of the coracoid process is essential to achieve good clinical results for all techniques [6, 7], and dislocation of the bone graft accompanied by screw breakage has been identified as a severe complication
Statistical evaluation using the Kolmogorov–Smirnov test showed that bone mineral density (BMD) values in the overall cohort were normally distributed (P = 0.200), with a mean of 163.2 g/ cm3 ± 44.32
Summary
The fixation of the coracoid process onto the glenoid is an important step of the Latarjet procedure, and implantassociated complications are a relevant and severe problem. This study compares the fixation strength and failure mode of two biodegradable materials with stainless-steel screws. Results At 5-mm displacement, the axial force values showed a mean of 374 ± 92 N (range 219–479 N) in group 1 (steel). The force values in group 2 (magnesium) had a mean of 299 ± 57 N (range 190–357 N). Conclusion Stainless-Steel screws showed the highest stability. Stainless steel screws and PLLA screws showed screw cut-out as the most common failure mode, while magnesium screws showed screw breakage in the majority of cases. Reliable fixation of the coracoid process is essential to achieve good clinical results for all techniques [6, 7], and dislocation of the bone graft accompanied by screw breakage has been identified as a severe complication. A systematic review by Griesser et al [11] found implant-associated revisions in 2% of all patients
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