Causes of acromion and scapular spine fractures following reverse shoulder arthroplasty: a retrospective analysis and literature review

Since April 2009, the Duocentric prosthesis (Aston Medical, Saint-Etienne, France) was used in all cases treated in our clinic. It was designed with the intention to reduce the incidence of scapular notching and improving the range of motion. Its glenoid baseplate is characterized by an inferior extension, a 20-mm-long or 40-mm-long and 6-mm-thin central peg, and 3 screw holes for the fixation to the scapula. There are two sizes, for a 36-mm or 40-mm glenosphere. Its centre of rotation is lateral to the implant-bone interface. The humeral component includes an onlay design with a standard stem, an adjustable epiphyseal plate with a neck-shaft angle of 145°, and a symmetric liner of different thicknesses (4 mm, 9 mm and 12 mm). The prosthesis was designed for degenerative conditions and proximal humeral fractures (Fig. 1).

All patients were operated under general anaesthesia. A deltopectoral approach was made when the subscapularis tendon was either partially or completely torn and in revision cases. A superolateral approach with detachment of the acromial insertion of the anterior deltoid was chosen when the subscapularis tendon was intact on pre-operative MRI or CT scan and in some fracture cases. The humeral head was resected at the level of the supraspinatus foot print, with either a specific guide or free hand. The labrum was completely excised to expose the superior and inferior glenoid contour. The glenoid baseplate was placed flush with the glenoid bone, at the level of the inferior glenoid rim. The superior fixation screw was oriented towards the coracoid process in order to minimize the risk of damaging the suprascapular nerve [10]. The humeral component was implanted with 0 to 20° of retroversion. The subscapularis was reattached with non-resorbable bone sutures, if detached and not retracted. Even the anterior deltoid was reattached with non-resorbable transosseous sutures. At the end of the procedure, the arm was immobilized in a sling with abduction pillow at 15° for six weeks, but early passive and active assisted shoulder mobilizations were allowed. Active use of the arm was encouraged after six weeks; lifting of light weights was allowed after three months. No formal strengthening exercises were prescribed.

The fractures were classified into types I to III according to Levy et al. [33]. In this classification, type I fractures pass through the lateral border of the acromion, type II fractures through the posterior aspect of the acromion and type III fractures through the scapular spine, medial to the plane of the glenoid. Lengthening of the arm was determined on anteroposterior radiographs of the shoulder with the arm in adduction.

Data analysis was performed according to the recommendations of Marusteri and Bacarea [34] and with use of the R software for statistical computing (R Foundation, Vienna, Austria). The Mann-Whitney U test was used for groups of unpaired data without normal distribution and the Kruskal-Wallis test was applied for categorial samples. Significance level was set at 0.05.

Eleven out of 189 patients (5.8%) treated in our clinic with a Duocentric prosthesis (Aston Medical, Saint-Etienne, France) and one patient operated in another hospital with an Affinis inverse prosthesis (Mathys Medical, Bettlach, Switzerland) and addressed for further controls were identified with a post-operative acromion (n = 6) or scapular spine (n = 6) fracture. The corresponding fracture lines are represented in Fig. 2 and the patient characteristics are listed in Table 1. The fractures occurred between three weeks and 70 months after replacement (average 26 months, median 13 months). The dates and the causes of the fractures were determined from patient history. Eight out of 12 patients (67%) reported a direct trauma to their shoulder. In seven cases, the fracture occurred after an accidental fall and in one case as a result of blunt trauma to the superior aspect of the shoulder caused by the head of a frightened horse. Of the four patients lacking trauma, one explained that the symptoms started during physical therapy (patient 1). The radiographs of another patient (patient 2) who had an additional AC resection during shoulder replacement surgery showed a normal alignment of the lateral clavicle with the acromion after six weeks, an inferior dislocation of the clavicle after three months and an acromion fracture after four months (Fig. 3). The third patient (patient 11) reported a vigorous arm movement behind the back 63 months after the operation. Standard radiographs were normal; however, a single-photon emission computed tomography (SPECT) revealed a fracture of the scapular spine (Fig. 4). The fourth patient devoid of trauma said that the symptoms started while she made housework (patient 12). All 12 patients reported a sudden onset of pain associated with a decrease of shoulder function. Eight patients saw a doctor within three days; the other four patients waited two, three, four and 39 weeks, respectively. In six cases, the fractures were diagnosed during the first consultation, and in the other six patients, the fractures were diagnosed with a delay of 15 to 90 days.

The post-operative radiographs showed no malposition of the prosthetic components. The superior screw of the glenoid base plate projected onto the scapular spine in eight cases, but only in one case the rim of the scapular spine fracture passed close to the tip of the screw. All other fractures were superiorly and or laterally. CT scans of five patients revealed that the screws, which appeared to be in contact with the scapular spine on standard AP views were in reality in front of or antero-superiorly to it (Fig. 4). Lengthening of the arm averaged 23 mm (range 19 to 36 mm). In all patients, the displacement of the fractured fragment increased from the first diagnosis to the latest follow-up, even in those patients who were treated with an abduction splint.

At the latest follow-up, all patients were able to reach their mouth with the affected hand. Active elevation in the scapular plane averaged 95° and ranged from 60 to 140°. Active external rotation with the arm at the side was 22° (range 0 to 45°). All patients could reach at least their buttock. Three patients were pain free, eight patients had mild to moderate pain and one patient reported severe pain despite CT-proven fusion of the angulated acromion fragment. Denervation of the suprascapular nerve, performed under sonographic control by an anaesthetist, finally relived pain in the latter case. Two patients rated their result as good, six as satisfactory and four as poor. Patients with no pain and better active elevation were more satisfied. All patients accepted their functional limitations and refused further surgery.

The age- and gender-matched control group included 36 patients with an average age of 73.6 years (range 56 to 83 years) and a follow-up of 48.7 months (range 12 to 108 months). Statistical analysis showed no significant difference between the control group and the fracture group with regard to age, gender, initial diagnosis, size of rotator cuff tear, approach, arm lengthening, diameter of the glenosphere, thickness of the polyethylene liner, additional procedures such as AC joint resection, or latissimus dorsi/teres major transfer. Active range of motion and patient satisfaction, however, were significantly better in the control group than in the fracture group.