key: cord-0029515-eh03nxk1 authors: Rajani, Amyn M.; Shah, Urvil A.; Punamiya, Meenakshi S. title: Lesser Tuberosity Avulsion Fracture: A Rare Case Report date: 2021-12-03 journal: J Orthop Case Rep DOI: 10.13107/jocr.2021.v11.i12.2544 sha: 68617376687025ad0e0ee7a6a860d68fa0fa63a0 doc_id: 29515 cord_uid: eh03nxk1 INTRODUCTION: Lesser tuberosity avulsion fractures are rare and often missed. Patients often complain only of heaviness around the shoulder and some loss in range of motion. CASE REPORT: This is a rare case of a lesser tuberosity avulsion fracture with displacement. The patient was a 29-year-old male who suffered an injury to the right shoulder due to a fall. Post-fall, the patient developed typical heaviness and restrictions in the range of motion of his right shoulder. Radiographs initially taken were not true anteroposterior (AP) views. The fracture was primarily missed by another surgeon, after which on opting for a true AP radiographs, the fracture was diagnosed. The fracture was managed by an open deltopectoral approach. Fracture fragment was reduced to its footprint and was fixed using 2 × 4.0 mm cancellous screws. Post-surgery, the patient was advised 3 weeks of immobilization after which mobilization was started. By monitored physiotherapy, consistent results can be obtained without loss of reduction. In this case too, full ranges with strength were achieved by 3 months postoperatively. CONCLUSION: Such fractures often missed may cause loss of external rotation movements in the patient and eventually malunion of the fragment if displaced. Watchfulness and timely management of the fractures can give excellent results. This case report aims at increasing the awareness among the budding shoulder surgeons in identifying such injuries at the earliest, and the means of managing them. The patient, a 29-year-old male, due to COVID-19 infection, was under monitoring at home when due to sudden drop in saturation, fell down on the ground with the right arm externally rotated, and abducted with the right shoulder impacting the ground first. The patient, being unconscious, was immediately shifted to the hospital and was kept under intensive care. The patient regained consciousness after 3 days. The patient immediately started feeling heavy in the right shoulder with some restriction in movements. The patient was advised to have a portable radiograph in the intensive care units, where fracture was missed (Fig. 1) . To identify the integrity of the subscapularis muscle, magnetic resonance imaging (MRI) was advised. MRI was clearly suggestive of subscapularis avulsion fracture (Fig. 3) . Computed tomography (CT) scan was also done to define the bone size and displacement from its original position. The patient was planned for an open subscapularis repair and lesser tuberosity reduction surgery (Fig. 4) . On finishing the treatment of COVID-19, the patient presented to us and a fresh set of radiographs were taken (Fig. 2) . This was 14 days post-injury. The patient was diagnosed with nondisplaced greater tuberosity fracture along with lesser tuberosity displaced fracture, with restriction in external rotation and weakness in internal rotation. The patient was then eventually mobilized with pendulum movements and progressive range of motion exercises. The patient achieved near-complete passive ranges of motion at 4 weeks postoperatively (Fig. 6 ). Muscle activation exercises were started, followed by progressive strengthening of the muscles. Deltopectoral approach was chosen and the lesser tuberosity fragment was identified. Along with the torn fibers of subscapularis tendon, the fragment was mobilized and fracture site was cleared for any fibrotic callus. The fragment on complete reduction was fixed using 2 4.0 mm cancellous screws. Greater tuberosity fragment was undisplaced with early signs of union, so was left alone (Fig. 5 ). Post-fixation, the patient was immobilized for a period of 3 weeks. At 3 months follow-up, the patient has normal ranges of motion with complete union of the fracture fragment and full scar integrity (Fig. 7, 8) . The lesser tuberosity is protected from direct injury by its small size and its location on the medial side of the head of the humerus. Therefore, most of the authors believe that the main mechanism of injury is muscular violence. W hen the subscapularis muscle forcefully contracts to resist abduction and external rotation of the shoulder, it is forced to extend, and the resultant strong traction force thus avulses the lesser tuberosity [3] . In our case, because an AP radiograph was unable to completely delineate the fracture fragment, we went on to get a radiograph in maximum internal rotation. This technique works well to delineate most of the lesser tuberosity fractures. Diagnosis also needs support of additional diagnostic Similar incident had occurred with our patient causing him pain, heaviness, and sudden restriction in the range of motion in the affected shoulder. It is ver y easy to miss these kinds of fractures. An anteroposterior (AP) view in maximal internal rotation projects the lesser tuberosity in profile and may be helpful in diagnosis. Large displaced fractures can be easily seen on standard AP radiographs, but the axillary view is often necessary to detect smaller fragments with minimal displacement [4, 6, 7, 8] . modalities such as CT scan and MRI. CT scan can help us detect the actual size and thickness of the fragment. MRI, on the other hand, can be used to detect soft-tissue injuries such as avulsion of rotator cuff and isolated subscapularis avulsion. MRI can identify the injury at the subscapularis tendon footprint with variable size and displacement [9] . Once diagnosed, management of lesser tuberosity avulsion fracture can be done in three ways: Conservatively by immobilization, open reduction and internal fixation, and surgical excision of fracture fragment. The conservative treatment may be an effective alternative to open reduction and internal fixation, even in acute cases of isolated lesser tuberosity fractures as long as the long head of the biceps tendon is not dislocated [10] . Surgical reduction and suture fixation is safe and effective in restoring subscapularis function and return to sports, even in cases of delayed treatment. Full recovery of shoulder external rotation may not be seen until 6 months postoperatively [11] . However, in our case, full recovery of the fracture site with near-complete ranges of motion was achieved. By this research article, we want to conclude that watchfulness for the identification of lesser tuberosity avulsion fracture is inevitable. It has some clear indicative signs such as feeling of heaviness in the shoulder, loss of external rotation of the shoulder, and restriction in other ranges of motion. This can be confused with a rotator cuff tear in some cases but MRI can help distinguish the soft-tissue involved. Furthermore, method of fixation can vary from suture repair to needle suture anchor to screw fixation depending on the size of the fragment. Rehabilitation and close follow-up can help achieve complete range of motion and strength as well. Isolated Lesser Tuberosity fractures of Humerus are rare and can be missed easily, identifying and fixing these fractures early can lead to excellent clinical outcomes. 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In the form, the patient's parents have given their consent for patient images and other clinical information to be reported in the journal. The patient's parents understand that his names and initials will not be published and due efforts will be made to conceal their identity, but anonymity cannot be guaranteed.