Bone-grafting procedures for recurrent shoulder instability produce low recurrence rates, although they are associated with complications such as graft non-union. Inadequate screw purchase is considered to play a causative role. However, excessive screw length can endanger neurovascular structures. The present study aimed to investigate how type and length of screws influences construct rigidity in a simplified glenoid model.
Methods
Testing was performed on composite polyurethane foam models with material properties and abstract dimensions of a deficient glenoid and an bone graft. Three screw types (cannulated 3.75 mm and 3.5 mm and solid 4.5 mm) secured the graft in a bicortical–bicortical, bicortical–unicortical and unicortical–unicortical configuration. Biomechanical testing consisted of applying axial loads when measuring graft displacement.
Results
At 200 N, graft displacement reached 0.74 mm, 0.27 mm and 0.24 mm for the unicortical–unicortical and 0.40 mm, 0.25 mm and 0.24 mm for the unicortical–bicortical configuration of the 3.75 mm, 3.5 mm and 4.5 mm screw types. The 3.75 mm screw incurred significant displacements in the unicortical configurations compared to the bicortical–bicortical method (p < 0.001).
Conclusions
The present study demonstrates that common screw types resist physiological shear loads in a bicortical configuration. However, the 3.75 mm screws incurred significant displacements at 200 N in the unicortical configurations. These findings have implications regarding hardware selection for bone-grafting procedures.
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