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Three-Column Osteotomy for the Treatment of Rigid Cervical Deformity
Darryl Lau,Christopher P. Ames 대한척추신경외과학회 2020 Neurospine Vol.17 No.3
Adult cervical deformity (ACD) has been shown to have a substantial impact on quality of life and overall health, with moderate to severe deformities resulting in significant disability and dysfunction. Fortunately, surgical management and correction of cervical sagittal imbalance can offer significant benefits and improvement in pain and disability. ACD is a heterogenous disease and specific surgical correction strategies should reflect deformity type (driver of deformity) and patient-related factors. Spinal rigidity is one of the most important considerations as soft tissue releases and osteotomies play a crucial role in cervical deformity correction. For ankylosed, fixed, and severe deformity, 3-column osteotomy (3CO) is often warranted. A 3CO can be done through combined anteriorposterior (vertebral body resection) and posterior-only approaches (open or closed wedge pedicle subtraction osteotomies [PSOs]). This article reviews the literature for currently published studies that report results on the use of 3CO for ACD, with a special concentration on posterior based 3CO (open and closed wedge PSO). More specifically, this review discusses the indications, radiographic corrective ability, and associated complications.
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A Review of Complications and Outcomes following Vertebral Column Resection in Adults
Sravisht Iyer,Venu M. Nemani,Han Jo Kim 대한척추외과학회 2016 Asian Spine Journal Vol.10 No.3
The correction of rigid spinal deformities in adult patients can require a three-column osteotomy (pedicle subtraction osteotomy [PSO] or vertebral column resection [VCR]) to obtain spinal balance. Unfortunately, the existing adult deformity literature frequently reports the outcomes and complications of these procedures together even though VCR is a more extensive procedure with potentially higher rates of complications. We sought to address this shortcoming and provide clinicians with an overview of the existing literature regarding VCR in adult patients. The goals of this review are: to determine the rate of overall and neurologic complications following VCR, the rate of complications with VCR compared to PSO, and the impact of VCR on clinical and radiographic outcomes. An electronic literature search was used to identify studies reporting outcomes or complications following VCR in adult patients. Raw data on patient demographics, case information, radiographic outcomes, complications and clinical outcomes were extracted. Data were pooled to report a rate of overall complications and neurologic complications. A pooled relative risk of complications following PSO vs. VCR was also calculated. Eleven retrospective studies (Level IV) met our inclusion criteria. The overall rate of complications was 69.2%. The reoperation rate was 9.6%. The rate of neurologic complications was 13.3% (range, 6.3% to 15.8%) with most cases being transient. The rate of permanent neurologic deficits was 2.0%. We found a significantly higher rate of all complications with VCR compared to PSO (relative risk, 1.36; 95% confidence interval, 1.24–1.49; p <0.001). All studies reporting clinical outcomes showed significant improvements in functional outcome postoperatively.
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Venkat Boddapati,Joseph M. Lombardi,Lawrence G. Lenke 대한척추신경외과학회 2020 Neurospine Vol.17 No.4
Pseudarthrosis in the setting of 3-column osteotomies such as vertebral column resection (VCR) is not well described, and pseudarthrosis at the VCR site itself has never been reported. This study reports pseudarthrosis with 4-rod implant failure at a multilevel VCR site. The authors report a case of pseudarthrosis in a patient treated previously for severe segmental thoracolumbar kyphosis resulting in significant pain and myelopathic signs in the setting of radiation therapy for metastatic myeloma. This patient initially underwent 2-level VCR (T11, T12) and fusion from T4-sacrum. This was complicated by pseudarthrosis and associated with same-level 4-rod fracture, resulting in prominent, painful implants, and worsening kyphosis. This patient underwent revision VCR during which time significant motion was found only at the site of the prior VCR with a loose anterior cage. A new expandable VCR cage was placed and the spine was reinstrumented, resulting in significant improvement in coronal and sagittal alignment. Pseudarthrosis at a VCR site has not been previously described. Technical considerations presented in the revision procedure include a 6-rod spanning construct, meticulous endplate repreparation, and the generous use of osteo-inductive and -conductive augments to promote solid fusion.
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Alekos A. Theologis,Munish C. Gupta 대한척추신경외과학회 2020 Neurospine Vol.17 No.3
Cervicothoracic deformity correction often necessitates a shortening operation, consisting of a 3-column osteotomy (3CO). While effective, segmental compression and in situ and cantilever bending often place screws under considerable stress and may jeopardize deformity correction. In this report, we present the surgical technique of a novel method, the “rail technique,” to shorten across a vertebral column resection (VCR) for cervicothoracic deformity correction. A 65-year-old woman with a history of a C5-pelvis posterior instrumented fusion (PSIF) presented with chin-on-chest deformity after a prior proximal junctional failure/kyphosis at T4 (30° T3–5) above a prior T5-pelvis PSIF that was stabilized in situ. She underwent an uncomplicated revision C2–T10 PSIF with shortening across a T4 VCR using the “rail technique.” Postoperatively, radiographs demonstrated excellent restoration of and normalization of cervical sagittal alignment, thoracic kyphosis, focal T3–5 kyphosis (7°), and global sagittal alignment. At 1-year postoperation, she was without neck pain and reported significant improvements in self-image, mental health, satisfaction, and subscale Scoliosis Research Society-22 scores compared to preoperative values. The “rail technique” is a safe and effective method for shortening over a 3CO to correct the cervicothoracic deformity.
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