Abstract
Background
Total shoulder arthroplasty is technically demanding in regards to implantation of the glenoid component, especially in the setting of increased glenoid deformity and posterior glenoid wear. Augmented glenoid implants are an important and innovative option; however, there is little evidence accessible to surgeons to guide in the selection of the appropriate size augmented glenoid.
Methods
Solid computer models of a commercially available augmented glenoid components (+3, +5, +7) contained within the software allowed for placement of the best fit glenoid component within the 3D reconstruct of each patient's scapula. Peg perforation, amount of bone reamed and amount of medialization were recorded for each augment size.
Results
There was strong correlation between the medialization of the joint line and the glenoid retroversion for each augmented component (R2 of 0.785 for the +3 augment, an R2 of 0.792 for the +5 component, and an R2 of 0.701 for the +7 component). The range of retroversion that restored anatomic joint line using the +3 augmented glenoid was −3° to −17°, −5° to −24° using the +5 augmented glenoid, and −9° to −31° for a +7 augmented glenoid.
Conclusions
Our results provide a general guideline for clinicians to select an appropriate sized augmented glenoid implant based on range of glenoid retroversion that can be corrected to restore the native joint line and minimize peg perforation. There was a strong correlation between glenoid retroversion and medialization for all augment sizes supporting the recommendation for glenoid retroversion as the primary guide in selecting the amount of augmentation.
