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Isolated volar dislocation of the distal ulna without forearm fracture is very rare; however, this injury is incorrectly diagnosed in approximately 50% of cases. This injury can lead to a significant functional disability if left untreated. This report presents a case of isolated volar dislocation of the distal ulna with an ulnar styloid fracture. The dislocation was subsequently reduced, the styloid was surgically repaired, and the patient was satisfied at the last follow-up. The importance of a proper clinical examination and an accurate radiographic position of the wrist are stressed. Furthermore, clinical evaluation of the distal radioular joint after reduction is important in achieving good results. There are various strategies for the treatment of distal radioulnar joint after reduction, including conservative treatment or surgical treatment. We believe that surgical exploration could have been carried out at an earlier stage had such a lesion been suspected.

Additional case reports of other instances of successful treatment are needed to educate orthopaedic surgeons and emergency medical technicians on the nature of this type of injury.

Forearm fractures in children complicated with non-union are uncommon. Various methods have previously been reported to manage this condition. Well documented techniques would include iliac crest grafting, cancellous insert grafting, ulnar segment grafting, cortical tibial grafting, vascularized fibular grafting and bone transport by ring fixation. The authors present a case of a child with an atrophic non-union of the ulna who was successfully treated with a cortico-cancellous tibial strut bone graft.

Background: Distal ulna groove morphology is likely to have a significant role in extensor carpi ulnaris (ECU) tendon stability. The development of a robust anatomical classification system, would be beneficial to further research into ulnar sided wrist pain and would be of use in rationalising treatment regimes.

Methods: Cadaveric specimens as well as MRI scans of patients with non-specific wrist pain were analysed independently by 3 orthopaedic surgeons twice to test the integrity of the classification system. The following classification system was developed for the distal ulna groove; Flat = L-shaped slope, S slope = S shaped, Reverse C = C-shaped slope. Findings were then subjected to Fleiss Kappa statistical analysis to evaluate how robust the classification system was.

Results: From the cadaveric arm of the study, 61 patients had their distal ulna groove morphology categorised according to types C, L, and S. For the MRI arm of the study 103 MRI scans were classified. ECU grove subtype C showed 8% dislocation compared to 33% and 47% for the L subtype and S sub type respectively.

Conclusions: Our classification system of ECU groove morphology will help identify different components to ulnar sided wrist problems and may help establish guidelines for treatment. This classification system has been validated for both cadaveric specimens and the MRI scans. It showed substantial agreement to almost perfect agreement in the data tested, thus proving good interand intra-observer reliability. It is a useful tool to help in further research into ulnar sided wrist pain and ECU instability, and may help develop further treatment strategies in the future.

We describe a case of isolated physeal fracture of ulna distal end in a 13-year-old boy. This fracture type is uncommon, especially Salter-Harris type III of this injury has not been reported. Plain radiographs showed a small vertical fracture line at the ulnar distal end and an enlargement of epiphyseal plate at the base of ulnar styloid process. The present case was successfully managed with conservative treatment because of its minimal displacement.

Background: There are many options to treat post osteomyelitic gaps in forearm bones. We report a pediatric series with postosteomyelitic forearm segmental defects reconstructed with fibular only graft: the non vascular fibular intramedullary bridging bone and additional grafting (FIBBAG) and the results thereof.

Methods: Outcomes in 8 patients treated with fibular strut and overlay matchstick grafts were retrospectively assessed. The clinical results were expressed as forearm shortening, range of motion at elbow and wrist joint. The radiological evaluation included time to union, presence of fractures and recurrence of infection, if any.

Results: The average patient age was 6 years (range, 3–12 years). The radius was involved in 6 and ulna in 2. Union occurred in all patients. The average intraoperative gap to be spanned was 5.86 cm (range, 3–14 cm). The average time for union was 6.63 months (range, 2–14 months). Two patients required additional bone grafting procedures. No graft fatigues/fractures were noted in available follow up. There was no recurrence of infection in any case. A positive ulnar variance was seen in 3 patients at follow up. Forearm shortening was a major cosmetic limitation following the procedure.

Conclusions: Fibular strut and additional bone grafting (FIBBAG) is one of the viable options for reconstruction of post osteomyelitic forearm defects in children with low procedural complication rate.

A double-barreled fibular graft was used to reconstruct both forearm bones and the humeroradial joint after tumor resection. The patient had a tumor of radius that invaded the ulna and extensor groups. After a wide tumor resection, vascularized fibular autograft and soft tissue reconstruction was performed. A fibular graft were placed as a double barrel in the proximal ulnar and radial defects including the radial head and fixed using two locking plates. Simultaneously, reconstruction of the humeroradial joint and wrist dorsiflexion was performed. Two years postoperatively, the patient is satisfied with his elbow function while performing activities of daily living. Although amputation was one of the options considered during the preoperative planning in this case, the affected limb could be preserved by grafting a double-barreled fibula and tendon transfer, which could maintain the function of his upper left limb.

Atypical ulna fracture (AUF) is relatively rare and is known to be associated with prolonged bisphosphonate (BP) use. The developmental mechanism remains unclear. We report a patient with an AUF associated with BP and severe spinal deformity. The patient was an 85-year-old woman receiving oral alendronate for 8 years without vitamin D supplementation. During regular kitchen work, she needed left upper limb support. She presented with atraumatic pain over the ulna. Radiographs revealed a transverse fracture in the proximal ulna and ulna bowing deformity. Whole-spine standing radiographs showed severe degenerative kyphoscoliosis. The skin induration with pigmentation on her left elbow that suggested prolonged overload and during standing work, coincided exactly with fracture location. This report suggests that ‘direct stress’, with persistent local overload on the proximal ulna, is one of the developmental mechanisms of AUF, in addition to persistent suppression of bone remodelling by prolonged BP use and vitamin D deficiency.

Level of Evidence: Level V (Therapeutic)

We report a patient with mature Madelung deformity who underwent radial and ulnar corrective osteotomy using three-dimensional (3D) simulation. An osteotomy model was created using the computer-aided design (CAD) software based on the computed tomography (CT) data. After correcting the ulna, the osteotomy angle of the radius was determined using the location of the lunate as a landmark in the 3D plane created by the longitudinal axis of the corrected ulna. Consequently, the ulna was flexed 3° and shortened by 5 mm, and the radius was extended at 36° and ulna deviated at 25° by open wedge osteotomy. The radial inclinations, volar tilt and ulnar variance were 25°, 45° and 5 mm preoperatively, and improved to 22°, 10° and 0 mm after surgery. At the 18-month follow-up, the patient reported no pain even during sports activity. The preoperative 3D simulation enabled precise preoperative planning and accurate correction of the Madelung deformity.

Level of Evidence: Level V (Therapeutic)