Glenoid screw position in the Encore Reverse Shoulder Prosthesis: an anatomic dissection study of screw relationship to surrounding structures

Background Fixation of the baseplate to the glenoid for the Reverse Shoulder Prosthesis (DJO Surgical, Austin, TX, USA) requires secure screw purchase to avoid excessive micromotion and baseplate failure. The best screw length for fixation is unknown. In addition, excessively long screws or a plunge...

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Bibliographic Details
Published in:Journal of shoulder and elbow surgery 2013-06, Vol.22 (6), p.814-820
Main Authors: Hart, Nathan D., MD, Clark, J.C., MD, Wade Krause, F.R., MD, Kissenberth, Michael J., MD, Bragg, William E., MD, Hawkins, Richard J., MD
Format: Article
Language:English
Subjects:
adverse effects
anatomic
arthroplasty
Arthroplasty, Replacement - methods
Bone Screws
Dissection
Humans
Orthopedics
Prosthesis Design
Reverse shoulder arthroplasty
Shoulder Joint - surgery
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Summary:Background Fixation of the baseplate to the glenoid for the Reverse Shoulder Prosthesis (DJO Surgical, Austin, TX, USA) requires secure screw purchase to avoid excessive micromotion and baseplate failure. The best screw length for fixation is unknown. In addition, excessively long screws or a plunge of the drill bit during baseplate insertion could injure surrounding structures. Methods Reverse Shoulder Prosthesis baseplates were inserted in 10 fresh-frozen shoulders by use of a 6.5-mm central screw and four 5.0-mm peripheral locking screws placed 90° to the baseplate. The top superior screw was placed into the base of the coracoid, corresponding to the 1-o'clock position in a right shoulder. The distances to surrounding vital structures were recorded, screws were removed, and screw hole lengths were measured to determine the most effective lengths in different parts of the glenoid scapula. Results The screw length was 30 mm for the superior screw holes, 28 mm for the inferior screw holes, 13 mm for the anterior screw holes, and 15 mm for the posterior screw holes. The central screw trajectory was through the anterior cortex. The anterior screw trajectory violated the subscapularis belly in all specimens. The posterior screw touched the suprascapular nerve or artery in 3 of 10 specimens. Discussion The superior and inferior screws have the longest bony fixation. Drill bit plunge during placement of the anterior screw poses a risk to the subscapularis muscle. Drilling for the posterior screw risks injury to the suprascapular nerve and artery at the spinoglenoid notch. Conclusions The posterior screw should be placed with care to avoid neurovascular complications.
ISSN:1058-2746
1532-6500
DOI:10.1016/j.jse.2012.08.013