Extracorporeal shock wave therapy for avulsion fractures of the sublime tubercle of the ulna in high school baseball players: A report of two cases.

Introduction

Injury to the structures of the medial elbow is common among baseball players. The injury can result from repeated valgus stress of the elbow. Several types of injury to the structures of the medial elbow have been reported. These injuries cause valgus instability and pain of medial aspect of the elbow during pitch.2, 3, 4 Avulsion fractures of the sublime tubercle of the ulna are rare and generally develop after bone maturation in baseball players. To the best of our knowledge, there are only three reports in the English orthopedic literature regarding this type of fracture.5, 6, 7 According to these reports, conservative treatment is performed initially. As a secondary treatment, bone fixation or ulnar collateral ligament reconstruction is performed when bone union cannot be achieved.6, 7 Additionally, avulsion fractures of the sublime tubercle of the ulna are often overlooked, and therefore, are liable to involve non-union. Ulnar collateral ligament reconstruction results in a high rate of successful return to baseball, as reported in a systematic review, but no reports have exclusively studied avulsion fractures of the sublime tubercle of the ulna. If patients receive the surgery for an avulsion fracture of the sublime tubercle of the ulna, they should inevitably receive post-operative management and long-term rehabilitation for at least 6 months.8, 9 Thus, a novel treatment for avulsion fractures of the sublime tubercle of the ulna is needed. Extracorporeal shock wave therapy (ESWT) is performed for stress fractures and non-union cases, and good results have been obtained in recent years.10, 11, 12, 13, 14 ESWT can be a novel treatment for avulsion fractures of the sublime tubercle of the ulna; however, no reports of its use have been published. This is the first report describing ESWT for delayed-union avulsion fractures of the sublime tubercle of the ulna.

Methods

The present study was approved by the Ethics Committee of our institution (H24-144). We obtained written informed consent from the patients. As per our criteria, patients who did not develop union over the 3 months, and who were not administered pain relief medication were included in the study, while those who had acute fractures were excluded.

ESWT protocol

The focused shock wave generator was used (Epos Ultra®; Dornier MedTech GmbH, Wessling, Germany). Patients received 3500 impulses at 0.36 mJ/mm2 without anesthesia, and the energy was gradually increased (total, 1300 mJ/mm2).

Irradiation and follow up

ESWT was performed by the same orthopedic surgeon in both cases. Patients were placed in the supine position with a 90° shoulder abduction and a 0° elbow extension. At the start of treatment, the most painful point of the medial elbow was confirmed to be the sublime tubercle by ultrasound. The point was highlighted with a waterproof marker. The shock waves were delivered to the highlighted site (Fig. 1). ESWT was performed once on each patient. Bone union was checked every 4 weeks by plain X-ray or computed tomography (CT).

Fig. 1

Extracorporeal shock wave therapy being performed. The sublime tubercle was confirmed to be the point of irradiation by ultrasound.

Case reports

Case 1: A 15-year-old male high school baseball pitcher experienced pain in the medial aspect of the elbow of his dominant hand during pitching. The patient initially rested from pitching and did not seek medical attention, but the pain in his elbow did not improve. He was examined at our orthopedic clinic after a 3-month break from pitching and upper limb training. Local compression pain in the medial aspect of the elbow and pain causing valgus stress were detected. No limitation of the range of motion was described. CT showed a bone fragment in the sublime tubercle of the ulna. Bone sclerosis was noted in the fracture edge, and, therefore, he was diagnosed with a stress fracture (Fig. 1). After 1 month of fulltime immobilization of the elbow, the pain was not relieved. ESWT was performed 4 months after the first incident of pain. The elbow was immobilized fulltime with a splint for 4 weeks after ESWT. The compression pain was decreased but was still present. Range of motion exercises were allowed 4 weeks after ESWT. Eight weeks after ESWT, no elbow pain was reported, and bone union was identified on CT (Fig. 2). He was allowed to play a game of catch 8 weeks after ESWT and to pitch at full effort 3 months after ESWT. No elbow pain during pitching had been reported at 6 months after ESWT.

Fig. 2

Case 1. Computed tomography scan before extracorporeal shock wave therapy (left). Note the bone fragment at the sublime tubercle (arrow, left). Computed tomography scan 8 weeks after extracorporeal shock wave therapy (right) showed union of the fractured bone of the sublime tubercle (arrow, right).

Case 2: A 16-year-old male high school baseball pitcher experienced pain in the medial aspect of the elbow of his dominant hand during pitching. He had experienced pain in the same area and the pain had been improved with rest from pitching when he was in junior high school. Therefore, the patient initially rested from pitching and did not seek medical attention, but the pain in his elbow did not improve. He was examined at the orthopedic clinic after a 1-month break from pitching, Local compression pain in the medial aspect of the elbow and pain causing valgus stress was detected. The range of motion was limited from 17° to 135°. Anteroposterior radiography and CT showed a bone fragment in the sublime tubercle of the ulna (Fig. 3). After 1 month of immobilization, ESWT was performed, because the pain did not subside. The elbow was immobilized fulltime with a splint for 4 weeks after ESWT before range of motion exercises were allowed. Six weeks after ESWT, no local compression pain of the medial aspect of the elbow was reported. Bone union was identified on performing anteroposterior radiography 14 weeks after ESWT, and the patient could pitch with full effort (Fig. 4). The range of motion was improved from 10° to 142°. No elbow pain during pitching had been reported at 6 months after ESWT.

Fig. 3

Case 2. Anteroposterior radiograph (left) and computed tomography (right) of the right elbow joint. Note the bone fragment at the sublime tubercle (arrow).

Fig. 4

Case 2. Anteroposterior radiograph 14 weeks after treatment. Note the union of the fractured bone of the sublime tubercle (arrow).

Discussion

In the present cases, stress fractures of the sublime tubercle of the ulna that did not heal after resting from pitching were successfully treated with ESWT. In the previous study, six of eight patients with sublime tubercle fractures did not respond to non-operative treatment consisting of immobilization with a range of motion brace for 8 weeks, followed by full-effort pitching at 12 weeks. Two of these patients ultimately underwent ulnar collateral ligament reconstruction, and four required bone fixations using bioabsorbable anchors. Finally, these patients returned to pitching 4–6 months after bone fixation and 9–12 months after ulnar collateral ligament reconstruction. Screw fixation for an avulsion fracture of the sublime tubercle was reported in a case report, and the patient returned to pitch 6 months after surgery. In each reported case, patients inevitably received operative management and long-term rehabilitation. In the present two cases, patients were able to avoid surgery, and through ESWT returned to pitch 3 months after treatment without any reported re-fractures, which is faster than any other reported case. Additionally, ESWT is believed to activate osteoblasts surrounding the fracture, which aid in bone union. Shockwaves activate extracellular signal-regulated kinase and p38 kinase, which are important factors for bone formation, promote bone marrow stromal cell growth and differentiation toward osteoprogenitors associated with TGF-β1 and VEGF induction.15, 16 ESWT is clinically performed for stress fractures and non-union cases with good results.10, 11, 12, 13, 14 ESWT can be a novel treatment for avulsion fractures of the sublime tubercle of the ulna, but no reports of its use have been published. This is the first report describing ESWT for delayed-union avulsion fractures of the sublime tubercle of the ulna. In the present cases, no major complications were detected. ESWT is a known treatment with few complications. Local pain during irradiation is the most frequent complication, and some patients experience local swelling and perceptual disorder. Rupture of the Achilles tendon after ESWT has been previously reported in a case report, but this case had undergone injection of steriods. To the best of our knowledge, there are no reports describing major complications such as refractures, continuous pain, or local dysfunction associated with ESWT for musculoskeletal tissue. However, no previous reports have described irradiation of the medial aspect of the elbow. For this reason, long-term follow up is needed.

This report has some limitations. Both subjects were treated by the same two methods; ESWT and immobilization. A further limitation was that case 2 did not undergo a CT scan after ESWT.

Conclusion

ESWT appears to be a successful non-invasive therapy to achieve bone union for stress fractures of the sublime tubercle of the ulna, allowing the patient to return to pitching.

Conflicts of interest and source of funding

None declared.