Optimizing Glenosphere Position and Fixation in Reverse Shoulder Arthroplasty, Part Two: The Three-column Concept

Overview

Journal J Shoulder Elbow Surg

Specialties General Surgery
Orthopedics

Date 2008 Jun 11

PMID 18541444

Citations 25

Authors

C Scott Humphrey

James D Kelly 2nd

Tom R Norris

Affiliations

Soon will be listed here.

Abstract

Scapular geometry is complex, and a screw-placement technique for optimizing glenoid component fixation with an Aequalis Reversed Shoulder Prosthesis (Tornier, Inc., Edina, MN) has not yet been described. Ten cadaveric human scapulae were implanted with 2 types of reverse arthroplasty baseplates, 1 with fixed-angle locking screw holes and 1 with multidirectional locking screw holes. Optimal screw placement was defined as that which maximized screw length, accomplished far cortical fixation, and attained screw purchase in good bone stock. An anterior cruciate ligament drill guide was used to find the ideal trajectory for each screw. Trajectory angles of the screws relative to the face of the baseplate are presented for what we believe is best possible fixation. Awareness of the 3 major columns of scapular bone (the base of coracoid, the spine, and the pillar) and utilization of a baseplate with variable-angle locking screws will allow optimal initial fixation of the glenosphere.

Citing Articles

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Ten technical aspects of baseplate fixation in reverse total shoulder arthroplasty for patients without glenoid bone loss: a systematic review.

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