Accuracy and safety of pedicle screw fixation in thoracic spine trauma.

OBJECT: The authors evaluated the accuracy of placement and safety of pedicle screws in the treatment of unstable thoracic spine fractures. METHODS: Patients with unstable fractures between T-1 and T-10, which had been treated with pedicle screw (PS) placement by one of five spine surgeons at a referral center were included in a prospective cohort study. Postoperative computed tomography scans were obtained using 3-mm axial cuts with sagittal reconstructions. Three independent reviewers (C.B., V.S., and D.G.) assessed PS position using a validated grading scale. Comparison of failure rates among cases grouped by selected baseline variables were performed using Pearson chi-square tests. Independent peri- and postoperative surveillance for local and general complications was performed to assess safety. Twenty-three patients with unstable thoracic fractures treated with 201 thoracic PSs were analyzed. Only PSs located between T-1 and T-12 were studied, with the majority of screws placed between T-5 and T-10. Of the 201 thoracic PSs, 133 (66.2%) were fully contained within the pedicle wall. The remaining 68 screws (33.8%) violated the pedicle wall. Of these, 36 (52.9%) were lateral, 27 (39.7%) were medial, and five (7.4%) were anterior perforations. No superior, inferior, anteromedial, or anterolateral perforations were found. When local anatomy and the clinical safety of screws were considered, 98.5% (198 of 201) of the screws were probably in an acceptable position. No baseline variables influenced the incidence of perforations. There were no adverse neurological, vascular, or visceral injuries detected intraoperatively or postoperatively. CONCLUSIONS: In the vast majority of cases, PSs can be placed in an acceptable and safe position by fellowship-trained spine surgeons when treating unstable thoracic spine fractures. However, an unacceptable screw position can occur.

Sternal split approach to the cervicothoracic junction in children.

STUDY DESIGN: We present a descriptive case series outlining the surgical technique and outcome in six patients managed with a combined anterior neck and sternal splitting approach. OBJECTIVES: To describe a surgical approach used in the management of severe cervicothoracic kyphosis and/or scoliosis in pediatric patients. SUMMARY OF BACKGROUND DATA: There are few reports in the literature that address the problem of accessing multileveled spinal deformities around the cervicothoracic junction requiring stabilization in the pediatric population. METHODS: A detailed chart and radiographic review was completed of six consecutive patients managed at our center with a combined anterior neck and sternal splitting approach. The indications, surgical technique, and outcome are reviewed for each case. This technique was employed in 6 pediatric patients, aged 3-15 years, at the authors' institution. Diagnoses included Klippel-Feil Syndrome (2 patients), Proteus Syndrome, Larsen Syndrome, and neurofibromatosis type I (2 patients). All patients had severe cervicothoracic kyphosis requiring surgical instrumentation. This technique allowed surgical access from C5-T6. RESULTS: This approach was invaluable in gaining access to the cervicothoracic junction to address complex spinal deformities in pediatric patients. In one patient, a separate thoracotomy was performed to access the lower thoracic spine. The only significant complication related to the approach was recurrent laryngeal nerve palsy experienced by one patient. This approach allowed stabilization of severe scoliotic and/or kyphotic deformities to impede curve progression. CONCLUSIONS: This approach was invaluable in gaining multileveled access to the cervicothoracic junction to address complex spinal deformities in pediatric patients.