Abstract
Background:
Currently, there are a variety of different reverse shoulder implant designs but few anatomic studies to support the optimal selection of prosthetic size. This study analyzed the glenohumeral relationships of patients who underwent reverse shoulder arthroplasty (RSA).
Methods:
Ninety-two shoulders of patients undergoing primary RSA for a massive rotator cuff tear without bony deformity or deficiency and 10 shoulders of healthy volunteers (controls) were evaluated using three-dimensional CT reconstructions and computer aided design (CAD) software. Anatomic landmarks were used to define scapular and humeral planes in addition to articular centers. After aligning the humeral center of rotation with the glenoid center, multiple glenohumeral relationships were measured and evaluated for linearity and size stratification. The correction required to transform the shoulder from its existing state (CT scan) to a realigned image (CAD model) was compared between the RSA and control groups. Size stratification was verified for statistical significance between groups. Generalized linear modeling was used to investigate if glenoid height, coronal humeral head diameter and gender were predictive of greater tuberosity positions.
Results:
All 92 shoulders were grouped into three different categories based on glenoid height. The humeral head size, glenoid size, lateral offset, and inferior offset all increased linearly (r2 > 0.95), but the rate of increase varied (slopes range from 0.59 to 1.9). Translations required to normalize the shoulder joint were similar between healthy and pathologic cases except for superior migration. Glenoid height, coronal humeral head diameter and gender predicted the greater tuberosity position within 1.09 ± 0.84 mm of actual position in ninety percent of the patient population. Morphometric measurements for each stratified group were all found to be statistically significant between groups (p ≥ 0.05).
Conclusion:
Patients who undergo RSA with minimal bony deformity have superior subluxation of the glenohumeral joint. Predicting the anatomic position of the greater tuberosity is dependent on gender, glenoid height and coronal humeral head diameter. This anatomic data provides a guide to avoid inadvertent mismatch of prosthetic and patient shoulder size. If the surgeon is able to measure glenoid height and coronal humeral head diameter preoperatively, accurate planning of the position of the greater tuberosity can be accomplished.
