Study Design: Retrospective study with clinical and radiological evaluation of 15 patients with congenital kyphosis or kyphoscoliosis who underwent anterior instrumented spinal fusion for posterolateral or posterior hemivertebae (HV). Objective: To evaluate the safety and efficacy of early surgical
Study Design: Retrospective study with clinical and radiological evaluation of 29 patients with congenital scoliosis who underwent 31 short segment
Introduction: Compared with open instrumented anterior spinal fusion for adolescent idiopathic scoliosis (AIS), endoscopic surgery offers clinical benefits that include reduced pulmonary morbidity and improved cosmesis. However, quantitative data on the radiological improvement of vertebral rotation using this method is limited. The aim of this study was to measure pre-operative and postoperative axial vertebral rotational deformity at the curve apex in endoscopic anterior instrumented scoliosis surgery patients using computed tomography (CT), and assess the relevance of these findings to clinically measured chest wall rib hump deformity correction. Methods: Between November 2002 and August 2005, twenty patients with right-sided thoracic curves underwent endoscopic single-rod
Study Aims: This study’s objectives were to measure pre-operative and postoperative axial vertebral rotational deformity at the curve apex in endoscopically-treated anterior-instrumented scoliosis patients using CT, and assess the relevance of these findings to clinically measured chest wall rib hump deformity correction. Introduction: Thoracoscopic instrumented anterior spinal fusion for adolescent idiopathic scoliosis (AIS) has clinical benefits that include reduced pulmonary morbidity, postoperative pain, and improved cosmesis. However, quantitative data on radiological improvement of vertebral rotation using this method is lacking. Methods: Between November 2002 and August 2005, 20 AIS patients with right-sided thoracic major curves underwent endoscopic single-rod anterior fusion. Preoperative and two-year postoperative CT was performed to assess axial vertebral rotation at the curve apex. Correlation between apical vertebral rotation measured on CT and rib hump measured using a scoliometer was assessed. Results: The mean angle of correction achieved in axial vertebral body derotation at the apical vertebra measured by CT was 7.9° and equated to 43% improvement. Preoperative and postoperative rib hump deformity correction correlated significantly with CT measurements using regression analysis (p=0.03). The mean improvement in rib hump deformity was 55%. Conclusion: We believe this is the first quantitative CT study to confirm that endoscopic
Introduction: Open instrumented anterior spinal fusion for adolescent idiopathic scoliosis (AIS) is a proven technique for vertebral derotation that, compared with posterior spinal fusion procedures, invariably requires fewer distal fusion levels to be performed. With the advent and evolution of endoscopic anterior instrumentation, further clinical benefits are possible such as reduced pulmonary morbidity, improved cosmesis and less postoperative pain. However, quantitative data on the radiological improvement of vertebral rotation using this method is limited. The aim of this study was to measure preoperative and postoperative axial vertebral rotational deformity at the apex of the curve in endoscopic anterior instrumented scoliosis surgery patients using computed tomography (CT), and assess the relevance of these findings to clinically measured chest wall rib hump deformity correction. Methods: Between November 2002 and August 2005, adolescent idiopathic scoliosis patients with right-sided thoracic major curves were selected for endoscopic single-rod anterior fusion by the senior authors. Low-dose pre-operative CT was performed as described previously (1) and two-year postoperative CT was also performed on consenting patients in accordance with local ethical committee approval. The pre and post surgical axial vertebral rotation was measured at the curve apex using Aaro and Dahlborn’s method (2). Intraobserver and interobserver variability was assessed. Additional clinical information such as rib hump deformity correction and change in the Cobb angle was retrieved from a surgical database and correlated to the CT findings. Least squares linear regression was used to investigate the correlation between apical vertebral rotation measured on CT and rib hump measured using a scoliometer. Results: Twenty patients were included in the study. The mean angle of correction achieved in axial vertebral body derotation at the apical vertebra measured by CT was 7.9° (median preoperative angle 17.3° [range 12.5° to 27.3°] and median postoperative angle 10.3° [range 1.8° to 18.1°]. This equated to a 43% improvement (range 20–90%). The preoperative and postoperative clinical measurements i.e. rib hump deformity correction, correlated significantly with CT measurements using regression analysis (p=0.03) and the mean improvement in rib hump deformity was 55% (median preoperative 15.0° [range 10° to 30°] and median postoperative 7.0° [range 4° to 10°]). 95% confidence intervals for intraobserver and interobserver validity were within the ranges ±4.5° to ±6.4°. Discussion: We believe this is the first quantitative CT study to confirm that endoscopic
Thoracoscopic spinal instrumentation and fusion has emerged as a viable alternative to open anterior and posterior techniques for the treatment of thoracic adolescent idiopathic scoliosis. Furthermore, the morbidity associated with thoracoscopy is limited, and the cosmetic result more desirable because of the minimal skin and chest wall dissection required with this method. However, the technique is technically demanding and has been perceived as having a steep learning curve. The objective of our study is to anal the initial series of 50 patients performed by a single surgeon, with respect to the coronal and sagittal alignment on radiographs, as well as a review of the peri-operative data and complications. Fifty consecutive patients who underwent thoraco-scopic instrumentation and fusion were divided into two groups for the purpose of this study: the first 25 cases (1st group) and the second 25 cases (2nd group). The minimum follow-up of these cases was 12 months (range 12 to 67 months). Data collected included the operative time, intra-operative blood loss, number of levels instrumented, length of the hospital stay, the number of days in the ICU, and the duration of analgesia. No major complications, such as neurological deficit, vascular injury, or implant failure were observed. No significant difference was encountered between the groups in terms of age and menarche at surgery, pre-operative curve magnitude and flexibility, sagittal profile, as well as the number of levels in the curve pre-operatively. The second group had significantly better coronal deformity correction at one week post-operatively (9.5 degrees versus 16.3 degrees, p <
0.001), six months post-operatively (12.1 degrees versus 18.9 degrees, p <
0.001), and at latest follow-up (15.1 degrees versus 19.5 degrees, p <
0.05). The percentage correction of scoliosis was significantly better in the second group at one week postoperatively (p <
0.001), six months post-operatively (p <
0.001), and at latest follow-up (p = 0.014). The percentage change in thoracic kyphosis and lumbar lordosis after surgery was not significantly different between both groups at various times of follow-up. There was no difference between both groups with regards to the number of levels fused, hospital stay, and duration of parenteral analgesia. Operative time was significantly less in the second group (302 minutes versus 372 minutes, p <
0.001). Estimated blood loss was also less in the second group (170 cc versus 266 cc, p = 0.04). The length of ICU stay was also shorter in the second group (1.8 days versus three days, p = 0.004). From the loess (locally-weighted regression) fit, the learning curve is estimated to be 30 cases with regards to the operative time, ICU duration, and the coronal plane deformity correction. The learning curve associated with thoracoscopic spinal instrumentation is acceptable. The complication rates remained stable throughout the surgeon’s experience. Thoracoscopic
Aim. To investigate
Purpose. 1. To evaluate how radiological parameters change during the first 3 years following anterior endoscopic surgery. 2. To report complications encountered in this period. Methods. Between April 2000 and June 2006,106 patients underwent an
To report the outcome of spinal deformity correction through anterior spinal fusion in wheelchair-bound patients with myelomeningocele. We reviewed 12 consecutive patients (7M:5F; mean age 12.4 years (9.2 to 16.8)) including demographic details, spinopelvic parameters, surgical correction, and perioperative data. We assessed the impact of surgery on patient outcomes using the Spina Bifida Spine Questionnaire and a qualitative questionnaire.Aims
Methods
Clinical and radiological data were reviewed for all patients
with mucopolysaccharidoses (MPS) with thoracolumbar kyphosis managed
non-operatively or operatively in our institution. In all 16 patients were included (eight female: eight male; 50%
male), of whom nine had Hurler, five Morquio and two Hunter syndrome.
Six patients were treated non-operatively (mean age at presentation
of 6.3 years; 0.4 to 12.9); mean kyphotic progression +1.5o/year;
mean follow-up of 3.1 years (1 to 5.1) and ten patients operatively (mean
age at presentation of 4.7 years; 0.9 to 14.4); mean kyphotic progression
10.8o/year; mean follow-up of 8.2 years; 4.8 to 11.8)
by circumferential arthrodesis with posterior instrumentation in
patients with flexible deformities (n = 6).Aims
Methods
Segmental vessel ligation during anterior spinal surgery has been associated with paraplegia. However, the incidence and risk factors for this devastating complication are debated. We reviewed 346 consecutive paediatric and adolescent patients ranging in age from three to 18 years who underwent surgery for anterior spinal deformity through a thoracic or thoracoabdominal approach, during which 2651 segmental vessels were ligated. There were 173 patients with idiopathic scoliosis, 80 with congenital scoliosis or kyphosis, 43 with neuromuscular and 31 with syndromic scoliosis, 12 with a scoliosis associated with intraspinal abnormalities, and seven with a kyphosis. There was only one neurological complication, which occurred in a patient with a 127° congenital thoracic scoliosis due to a unilateral unsegmented bar with contralateral hemivertebrae at the same level associated with a thoracic diastematomyelia and tethered cord. This patient was operated upon early in the series, when intra-operative spinal cord monitoring was not available. Intra-operative spinal cord monitoring with the use of somatosensory evoked potentials alone or with motor evoked potentials was performed in 331 patients. This showed no evidence of signal change after ligation of the segmental vessels. In our experience, unilateral segmental vessel ligation carries no risk of neurological damage to the spinal cord unless performed in patients with complex congenital spinal deformities occurring primarily in the thoracic spine and associated with intraspinal anomalies at the same level, where the vascular supply to the cord may be abnormal.