Effect of humeral stem and glenosphere designs on range of motion and muscle length in reverse shoulder arthroplasty

Purpose To determine how different combinations of humeral stem and glenosphere designs for reverse shoulder arthroplasty (RSA) influence range of motion (ROM) and muscle elongation. Methods A computed tomography scan of a non-pathologic shoulder was used to simulate all shoulder motions, and thereby compare the ROM and rotator cuff muscle lengths of the native shoulder versus 30 combinations of humeral components (1 inlay straight stem with 155 degrees inclination and five onlay curved stems with 135 degrees, 145 degrees or 155 degrees inclinations, using concentric, medialized or lateralized trays) and glenospheres (standard, large, lateralized, inferior eccentric and bony increased-offset (BIO-RSA)). Results Only five of the 30 combinations restored >= 50% of the native ROM in all directions: the 145 degrees onlay stem (concentric tray) combined with lateralized or inferior eccentric glenospheres and the 145 degrees stem (lateralized tray) combined with either a large, lateralized or inferior eccentric glenosphere. Lengthening of the supraspinatus and infraspinatus, observed for all configurations, was greatest using onlay stems (7-30%) and BIO-RSA glenospheres (13-31%). Subscapularis lengthening was observed for onlay stems combined with BIO-RSA glenospheres (5-9%), while excessive subscapularis shortening was observed for the inlay stem combined with all glenospheres except the BIO-RSA design (> 15%). Conclusions The authors suggest implanting 145 degrees onlay stems, with concentric or lateralized trays, together with lateralized or inferior eccentric glenospheres.