Emre Bal

Kyphectomy for congenital kyphosis due to meningomyelocele: a case treated with a modified approach to skin healing

This study is a case report of a meningomyelocele patient with congenital kyphosis who was treated with kyphectomy and a special approach to soft tissue healing. The objective of this study is to show a step by step approach to surgical treatment and postoperative care of a meningomyelocele patient with congenital kyphosis. In meningomyelocele the incidence of kyphosis is around 12–20%. It may cause recurrent skin ulcerations, impaired sitting balance and respiratory compromise. Kyphectomy has first been described by Sharrard. This surgery is prone to complications including pseudoarthrosis, skin healing problems, recurrence of deformity and deep infections. A 15‐year‐old male presented with congenital kyphosis due to meningomyelocele. He had back pain, deformity and bedsores at the apex of the deformity. The wound cultures showed Staphylococcus epidermidis colonisation at the apex. He was given appropriate antibiotic prophylaxis. During surgery, the apex of the deformity was exposed through a spindle‐shaped incision. After instrumentation and excision of the apex, correction was carried out by cantilever technique. Two screws were inserted to the bodies of L3 and T11. After the operation, the skin was closed in a reverse cross fashion. He was sent to hyperbaric oxygen treatment for prevention of a subsequent skin infection and for rapid healing of skin flaps post operation. The patients deformity was corrected from a preoperative Cobb angle of 135°–15° postoperative. The skin healed without any problems. Preoperative culture and appropriate antibiotic prophylaxis, spindle‐shaped incision, reverse cross‐skin closure and postoperative hyperbaric oxygen treatment can be useful adjuncts to treatment in congenital kyphosis patients with myelomeningocele to prevent postoperative wound healing and infection problems. Reduction screws and intracorporeal compression screws help to reduce the amount of screws and aid in corection of the deformity.

Short segment pedicle screw instrumentation with an index level screw and cantilevered hyperlordotic reduction in the treatment of type-A fractures of the thoracolumbar spine

The purpose of this study was to evaluate and compare the effect of short segment pedicle screw instrumentation and an intermediate screw (SSPI+IS) on the radiological outcome of type A thoracolumbar fractures, as judged by the load-sharing classification, percentage canal area reduction and remodelling. We retrospectively evaluated 39 patients who had undergone hyperlordotic SSPI+IS for an AO-Magerl Type-A thoracolumbar fracture. Their mean age was 35.1 (16 to 60) and the mean follow-up was 22.9 months (12 to 36). There were 26 men and 13 women in the study group. In total, 18 patients had a load-sharing classification score of seven and 21 a score of six. All radiographs and CT scans were evaluated for sagittal index, anterior body height compression (%ABC), spinal canal area and encroachment. There were no significant differences between the low and high score groups with respect to age, duration of follow-up, pre-operative sagittal index or pre-operative anterior body height compression (p = 0.217, 0.104, 0.104, and 0.109 respectively). The mean pre-operative sagittal index was 19.6° (12° to 28°) which was corrected to -1.8° (-5° to 3°) post-operatively and 2.4° (0° to 8°) at final follow-up (p = 0.835 for sagittal deformity). No patient needed revision for loss of correction or failure of instrumentation. Hyperlordotic reduction and short segment pedicle screw instrumentation and an intermediate screw is a safe and effective method of treating burst fractures of the thoracolumbar spine. It gives excellent radiological results with a very low rate of failure regardless of whether the fractures have a high or low load-sharing classification score.

The use of intralaminar screws in patients with spinal deformity.

Study Design: Retrospective study. Objective: To demonstrate that intralaminar screws (ILS) can be used as supplements in spinal deformity surgery in the thoracic and lumbar levels in pediatric and adult patients. Summary of Background Data: Rigid posterior fixation of the spine is generally accomplished using pedicle screws, hooks, or wires. ILSs are useful tools when other spinal fixation techniques have failed or the bony anatomy precludes hook or screw placement. Materials and Methods: All spinal deformity patients (primary/revision) operated between 2007 and 2011 were retrospectively reviewed. The patients with ILS were included in the study. The anteroposterior and lateral standing x-rays were evaluated in terms of preoperative and postoperative coronal and sagittal deformities. The number and level of ILS, intraoperative complications, and postoperative complications were noted. Results: There were 20 patients (12 male and 8 female). The mean age was 21.75 years. The mean follow-up period was 17.4 months. Fifty-seven ILS were inserted. Seventeen screws were used in the uppermost to lowermost levels. Forty screws were used in the middle. There was 1 lamina fracture and screw pull out (1.75%). There were 3 canal violations (corrected intraoperative) and 2 instrument prominences which required implant removal. The mean preoperative/postoperative cobb angles were 78.5 degrees/27.8 degrees and the mean preoperative/postoperative kyphosis angles were 57.2 degrees/32.5 degrees, respectively. The loss of correction was 1.2 degrees. There were no neurological deficits and no instrument failures. Conclusions: ILS are safe and effective when used in deformity correction. However, biomechanical studies and randomized controlled trials are needed to conclude whether ILS will be considered a first-line technique, or will remain a technique for salvage situations.

Convex short segment instrumentation and hemi-chevron osteotomies for Putti type 1 thoracic hemivertebrae: a simple treatment option for patients under 5 years old.

Study Design: A case series depicting the results of a novel surgical technique. Objective: To prove that a minimally invasive surgical technique can effectively control and even correct congenital scoliosis caused by a fully segmented hemivertebra. Summary of Background Data: Congenital hemivertebrae have been treated by anterior and posterior growth arrest with/without fusion, anterior and posterior hemivertebrectomy, transpedicular hemivertebra excision, and transpedicular hemiepiphysiodesis. These approaches are complex and require experience. There is a need for a simple treatment method to treat these deformities. Methods: Twelve patients under 5 years of age with Putti type1 hemivertebrae were treated by posterior convex short segment instrumentation, partial chevron osteotomies, and fusion. Scoliosis, segmental scoliosis, kyphosis, segmental kyphosis, trunk shift were measured both preoperatively and postoperatively. Results: The mean correction of the segmental curve was 6 degrees (21%) which was maintained at the latest follow-up. The average final correction of the main curve was 23%. The trunk shift was 1.8 cm (range, 1–3 cm) preoperative and 1.4 cm (range, 0–2.5 cm) at the latest follow-up. The segmental angle of kyphosis averaged 11 degrees (range, −12 to 20 degrees) preoperative, and 14 degrees (range, 0–29 degrees) at the latest follow-up assessment. The values of the total thoracic kyphosis (T2–T12) were 29.5 degrees (range, 10–46 degrees) preoperative, 31 degrees (range, 10–44 degrees) postoperative, and 32 degrees (range, 16–45 degrees) at the last follow-up resulting in a mean improvement of 2 degrees. This improvement continued at the latest follow-up with a mean increase of 3 degrees. Conclusions: Transpedicular instrumentation is ideal for early correction in young children. The new posterior approach is much less invasive than the combined approaches or other posterior vertebrectomies and is well tolerated even in very young patients. The fusion segment is kept short. The deformities seem to stop progressing and this can avoid development of severe local deformities and secondary curves.

Protruded and nonprotruded subungual exostosis: Differences in surgical approach.

Background: In subungual exostosis surgery, repair of the damaged nail bed and surgical excision of the mass without damaging the nail bed is important. The ideal method of surgery is still unclear. This study is done to qualify the effects of different surgical methods on outcome measures in different types of subungual exostosis. Materials and Methods: Fifteen patients, operated with a diagnosis of subungual exostosis between January 2008 and June 2012, were evaluated. Protruded masses were excised with a dorsal surgical approach after the removal of the nail bed and nonprotruded masses were excised through a“fish-mouth” type of incision. Results: The mean age of the patients in protruded subungual exostosis group was 17.3 years (range 13-22 years) and this group consisting of seven female and two male patients. The patients were followed up for a mean of 14.1 ± 4.8 months. The mean age of the patients in the nonprotruded subungual exostosis group was 14.6 years (range 13-16 years) and consisting of six female patients. The patients were followed up for a mean of 11.6 ± 2.9 months. The results were positively affected by changing the surgical approach depending on whether or not the exostosis is protruded from the nail bed. All patients had healthy toe nails in the postoperative period without any signs of recurrence. Conclusions: In patients with a protruded subungual exostosis, the mass should be removed by a dorsal approach with the removal of the nail and injury to the nail bed should be repaired. In patients with a nonprotruded subungual exostosis, the mass should be excised through a “fish-mouth” type incision at the toe tip without an iatrogenic damage.