Anterior stability of the reverse shoulder arthroplasty depending on implant configuration and rotator cuff condition

Introduction The aim of this study was to investigate the stabilizing influence of the rotator cuff as well as the importance of glenosphere and onlay configuration on the anterior stability of the reverse total shoulder replacement (RTSR). Materials and methods A reverse total shoulder replacement...

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Bibliographic Details
Published in:Archives of orthopaedic and trauma surgery 2016-11, Vol.136 (11), p.1513-1519
Main Authors: Pastor, Marc-Frederic, Kraemer, Manuel, Wellmann, Mathias, Hurschler, Christof, Smith, Tomas
Format: Article
Language:English
Subjects:
Arthroplasty, Replacement, Shoulder - methods
Biomechanical Phenomena
Cadaver
Dissection
Humans
Joint Prosthesis
Joint surgery
Male
Medicine
Medicine & Public Health
Middle Aged
Orthopaedic Surgery
Orthopedics
Range of Motion, Articular - physiology
Rotation
Rotator cuff
Rotator Cuff - physiopathology
Shoulder Joint - physiopathology
Shoulder Joint - surgery
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Summary:Introduction The aim of this study was to investigate the stabilizing influence of the rotator cuff as well as the importance of glenosphere and onlay configuration on the anterior stability of the reverse total shoulder replacement (RTSR). Materials and methods A reverse total shoulder replacement was implanted into eight human cadaveric shoulders, and biomechanical testing was performed under three conditions: after implantation of the RTSR, after additional dissection of the subscapularis tendon, and after additional dissection of the infraspinatus and teres minor tendon. Testing was performed in 30° of abduction and three rotational positions: 30° internal rotation, neutral rotation, and 30° external rotation. Furthermore, the 38-mm and 42-mm glenospheres were tested in combination with a standard and a high-mobility humeral onlay. A gradually increased force was applied to the glenohumeral joint in anterior direction until the RTSR dislocated. Results The 42-mm glenosphere showed superior stability compared with the 38-mm glenosphere. The standard humeral onlay required significantly higher anterior dislocation forces than the more shallow high-mobility onlay. External rotation was the most stable position. Furthermore, isolated detachment of the subscapularis and combined dissection of the infraspinatus, teres minor, and subscapularis tendon increased anterior instability. Conclusions This study showed superior stability with the 42-mm glenosphere and the more conforming standard onlay. External rotation was the most stable position. Detachment of the subscapularis as well as dissection of the complete rotator cuff decreased anterior stability.
ISSN:0936-8051
1434-3916
DOI:10.1007/s00402-016-2560-3