Posterior vertebral column resection: Exploring practical uses in clinical settings.

Background: The purpose of this study was to present our experience in patients who had been treated with posterior vertebral column resection (PVCR) for various spinal deformities. Methods: Thirty-seven patients who performed PVCR between 2015 and 2018 were evaluated retrospectively. The mean follow-up period was 24 months (range: 12-50 months). The demographic data of the patients, mean blood loss, amount of blood replacement, duration of operation, intensive care and hospitalization period, PVCR level, instrumentation level, amount of preoperative curvature, amount of postoperative curvature improvement, preoperative and postoperative neurological status, and complications were examined. Angular measurements were performed on X-ray. Results: The mean age of the patients was 37.5 years (range: 3-80 years). PVCR was applied to patients due to different pathologies (congenital, tumor metastasis, posttraumatic kyphosis, revision scoliosis, and infection). The mean operation time was 445.5 min (260-720) with an average blood loss of 1903 ml (400-7000 ml). It was observed that the average local kyphosis angle decreased from 67.65° to 7.42° in 26 patients who were operated for advanced deformity (P < 0.001). When these values were compared in all 34 patients, the preoperative angle value decreased from 55.1° to 3.5° (P < 0.001) and decreased from 70° to 0° in 13 congenital kyphosis patients. Conclusion: PVCR is an effective method for correcting severe spinal deformities and can be used to correct curvature in different patient groups. Level of Evidence: Level 3.

Postoperative dysesthesia after PVCR without anterior support applied in Yang's type A severe spinal kyphoscoliosis.

Backgrounds: The incidence and characteristics of postoperative dysesthesia (POD) have not been reported for posterior vertebral column resection (PVCR) in the treatment of severe spinal kyphoscoliosis. Objective: The objective of the study is to investigate the incidence and characteristics of POD in PVCR without anterior support applied in Yang's type A severe spinal kyphoscoliosis. Material and methods: From August 2010 to December 2019, 167 patients diagnosed with Yang's type A severe spinal kyphoscoliosis who underwent PVCR without anterior support applied were retrospectively reviewed. All the patients were monitored using five modes of intraoperative multimodal neurophysiological monitoring. Neuromonitoring data, radiographic parameters, and neurological complications were reviewed and analyzed. The incidence and characteristics of POD were further summarized. POD was defined as dysesthetic pain or burning dysesthesia which could be caused by spinal cord kinking or dorsal root ganglion (DRG) injury but with no motor deficits. Results: PVCR without anterior support was successfully conducted in all 167 patients. Intraoperative monitoring events occurred in five patients. One out of these five patients showed postoperative spinal cord injury (Frankel level C) but completely recovered within 9 months postoperation (Frankel level E). The number of levels and osteotomy space for vertebra resection were 1.28 and 3.6 cm, respectively. POD was confirmed in three patients (3/167, 1.8%), characterized as kyphosis with the apex vertebrae in T12 with the kyphotic Cobb angles of 100°, 115°, and 122°, respectively. The osteotomy space of vertebra resection in these three patients were 3.9, 3.8, and 4.2 cm, respectively. After the treatment by drug administration, they reported pain relief for 12-36 days. The pain gradually moved to the distal end of a proper DRG innervated region near the end. Conclusions: In this study, the incidence rate of POD in Yang's type A severe spinal kyphoscoliosis patients who underwent PVCR without anterior support applied was 1.8% (3/167). Evoked potential monitoring could not detect the occurrence of POD. POD in Yang's type A severe spinal kyphoscoliosis after PVCR could be ascribed to spinal cord kinking and DRG injury.

Posterior Insertion of a Lateral Lumbar Interbody Fusion Cage for the Treatment of Osteoporotic Vertebral Fracture with Kyphotic Deformity: A Case Report.

Introduction: Stable fixation with a wide-foot-plate expandable cage and lateral lumbar interbody fusion (LLIF) cage has been reported as the ideal treatment for vertebral pseudarthrosis or deformity after an osteoporotic vertebral fracture. (OVF). The procedure requires anterior surgery, which may be associated with unique complications. Therefore, we performed a novel procedure consisting of posterior vertebral column resection (PVCR) using a lateral lumbar interbody fusion LLIF cage. Case Presentation: In 2020, we prospectively studied three patients (one male and two female patients; mean age, 75.1 years) who underwent posterior insertion of a lateral lumbar interbody fusion LLIF cage for kyphotic deformity due to osteoporotic vertebral fractures. OVFs. The affected levels were L1, T12, and T11 in patients one, two, and three, respectively. The cage trajectory was confirmed by simulating the procedure using PowerPoint® software. Radiological outcomes were assessed using the angle of local kyphosis pre-preoperatively and postoperatively, and the clinical outcomes and neurological complications were reviewed. We inserted the cage smoothly and optimally in all three patients without sacrificing the nerve root, consistent with our pre-operative simulations. The mean operation time was 405 min (range, 368-433 min), and the mean blood loss was 845 mL (range, 800-865 mL). The mean local kyphotic angle was 46.3° preoperatively and 16.3° two2 weeks postoperatively. The pre-operative low back pain disappeared in all the patients. Post-operative neurological complications occurred in two of the patients, but did not interfere with walking rehabilitation. Conclusion: The present study is the first to demonstrate that posterior insertion of a lateral lumbar interbody fusionLLIF cage is feasible in patients undergoing posterior vertebral column resection.PVCR.

Thoracolumbar and Lumbar Posterior Vertebral Resection for the Treatment of Rigid Congenital Spinal Deformities in Pediatric Patients: A Long-Term Follow-up Study.

Objective: We sought to determine whether a posterior vertebral resection on congenital deformities of thoracolumbar and lumbar vertebrae leads to more complications and provides less correction. Methods: Twenty-three patients underwent a posterior vertebral resection for a rigid congenital spinal deformity, which included scoliosis (13 patients), kyphoscoliosis (6 patients), and pure kyphosis (4 patients). The surgeries involved removing 1 to 2 vertebrae using multiaxial pedicle screws in all but 2 of the patients. All surgeries were performed under intraoperative spinal cord monitoring. Thoracic curve, lumbar lordosis, focal kyphosis, shift, and sagittal vertical axis were collected at baseline and during the last follow-up (taking place after at least 3 years) and were then statistically analyzed. Results: The major curve correction was about 55% in cases of scoliosis, with focal kyphosis improving from 54.3 ± 19.1 degrees to 21.3 ± 15 degrees. Two patients experienced intraoperative neuromonitoring changes, with data returning to baseline without any surgical intervention. Sensory or motor palsy after the surgery was not reported in patients.Despite improving sagittal or coronal deformities, 8 patients experienced excessive sagittal decompensation during follow-up, 1 of whom underwent revision surgery. Sagittal decompensation was by far the most common complication. Larger kyphoscoliosis or focal kyphosis angles were preoperative risk factors for postoperative sagittal imbalance (P value < 0.05). Conclusions: Using a lumbar or thoracolumbar posterior vertebral resection enables surgeons to correct rigid curves in the pediatric population without major risk to nerve roots. The primary complications would be sagittal decompensation and the likelihood of undercorrection, which requires mindful addressing during the preoperative planning stages.

Posterior vertebral column resection for pediatric rigid spinal deformity.

INTRODUCTION: Surgery for pediatric spinal deformity may involve vertebral osteotomies in complex cases. Vertebral column resection (VCR) is the most technically demanding procedure, with the severest morbidity. It can use a double anterior and posterior approach (APVCR), though a single posterior approach (PVCR) is gaining in popularity. HYPOTHESIS: PVCR provides effective correction with acceptable morbidity in children. METHOD: A single-center retrospective series included spinal deformities treated by PVCR. Surgical data and global pelvic-spinal balance parameters were analyzed. RESULTS: Sixteen PVCRs were performed in 13 patients, with a mean age of 14.1±2.8 years. Mean operative time was 411±54minutes. Mean preoperative rigid principal Cobb angle was 74.3°. Mean correction was 64.3% postoperatively, without significant correction loss at last follow-up. Mean blood loss was 941±221ml. The cell-saver enabled 92.3% autologous transfusions, with 53.4% homologous transfusions. Transient monoplegia and permanent psoas deficit were observed during the postoperative period. Radiologic follow-up found 4 non-unions requiring revision. CONCLUSION: PVCR provided major correction of rigid spinal deformity in children. Complications mainly comprised mechanical or neurological incidents. LEVEL OF EVIDENCE: IV, non-comparative cohort study.

Posterior Vertebral Column Resection (pVCR) for Severe Thoracolumbar Kyphosis in Patients With Achondroplasia.

STUDY DESIGN: Retrospective cohort study. OBJECTIVE: We aimed to evaluate the safety and validity of posterior vertebral column resection (pVCR) for severe thoracolumbar kyphosis (TLK) in the achondroplasia (ACH) patients. METHODS: Seven ACH patients (male: female = 6:1) who underwent pVCR procedures due to severe TLK from December 2008 to December 2017 in the authors' hospital were included in this retrospective study. Their mean follow-up duration was 67 ± 35 months. Their clinical characteristics, radiologic characteristics, surgical characteristics and surgical complications were reviewed. RESULTS: A total of 8 vertebrae were removed with an average of 5 ± 2 levels of decompression and 9 ± 2 segments instrumented. The mean correction rates of TLKs and the main curves were 73 ± 15% and 87 ± 6%, respectively. Five patients (71%) had preoperative neurological symptoms with a mean Japanese Orthopedic Association (JOA) score of 8 ± 3 points. Their neurological functions were all improved, with a recovery rate of 78 ± 32% for the JOA score at the last follow-up. Four patients (57%) suffered from surgical complications, including rod breakages (43%), neurological complications (28%), dural tears (14%), cerebrospinal fluid leaks (14%) and proximal junction kyphosis (14%). CONCLUSIONS: pVCR can offer a good correction for TLK and improve neurological function with extensive laminectomies in ACH patients. But the morbidity of surgical complications is relatively high. Therefore, it is a reserved surgical option for severe TLK in ACH patients by experienced spinal surgeons, especially with apical markedly hypoplastic vertebrae.

Clinical, radiological, and functional outcomes of posterior-only three-column osteotomy in congenital kyphosis : a minimum of two years' follow-up.

AIMS: To describe the clinical, radiological, and functional outcomes in patients with isolated congenital thoracolumbar kyphosis who were treated with three-column osteotomy by posterior-only approach. METHODS: Hospital records of 27 patients with isolated congenital thoracolumbar kyphosis undergoing surgery at a single centre were retrospectively analyzed. All patients underwent deformity correction which involved a three-column osteotomy by single-stage posterior-only approach. Radiological parameters (local kyphosis angle (KA), thoracic kyphosis (TK), lumbar lordosis (LL), pelvic tilt (PT), sacral slope (SS), C7 sagittal vertical axis (C7 SVA), T1 slope, and pelvic incidence minus lumbar lordosis (PI-LL)), functional scores, and clinical details of complications were recorded. RESULTS: The mean age of the study population was 13.9 years (SD 6.4). The apex of deformity was in thoracic, thoracolumbar, and lumbar spine in five, 14, and eight patients, respectively. The mean operating time was 178.4 minutes (SD 38.5) and the mean operative blood loss was 701.8 ml (SD 194.4). KA (preoperative mean 70.8° (SD 21.6°) vs final follow-up mean 24.7° (SD 18.9°); p < 0.001) and TK (preoperative mean -1.48° (SD 41.23°) vs final follow-up mean 24.28° (SD 17.29°); p = 0.005) underwent a significant change with surgery. Mean Scoliosis Research Society (SRS-22r) score improved after surgical correction (preoperative mean 3.24 (SD 0.37) vs final follow-up mean 4.28 (SD 0.47); p < 0.001) with maximum improvement in self-image and mental health domains. The overall complication rate was 26%, including two neurological and five non-neurological complications. Permanent neurological deficit was noted in one patient. CONCLUSION: Deformity correction employing three-column osteotomies by a single-stage posterior-only approach is safe and effective in treating isolated congenital thoracolumbar kyphosis. Cite this article: Bone Joint J 2021;103-B(7):1309-1316.

Unilateral Posterior Surgery for Severe Osteoporotic Vertebrae Fractures' Sequelae in Geriatric Population: Minimum 5-Year Results of 109 Patients.

OBJECTIVE: This study aimed to evaluate the efficacy and safety of modified posterior vertebral column resection (PVCR) combined with anterior column restoration in elderly patients presenting with thoracic or thoracolumbar osteoporotic fractures with spinal cord compression and severe pain. METHODS: One hundred nine patients with one level thoracolumbar osteoporotic fracture and at least 5 years of follow-up were included. They underwent posterior instrumentation performed with polymethymetachrylate augmented pedicle screws. A modified PVCR (unilateral costotransversectomy+hemilaminectomy) combined with the insertion of an expandable titanium cage for anterior column restoration was undertaken. Patients were evaluated clinically and radiographically. RESULTS: Patients had a mean age of 74.1 and a follow-up duration of 92.3 months. Mean duration of operations, hospital stays, and mean loss of blood were 172.3 minutes, 4.3 days, and 205.4 mL. All of the patients were mobilized immediately after surgery. The mean preoperative local kyphosis angle improved from 39.3° to 4.7° at the last follow-up (p = 0.003). Patients preoperative mean visual analogue score, Japanese Orthopaedic Association, and Oswestry Disability Index scores improved from 7.7/8.6/76.3 to 1.6/26.1/17.4 (p < 0.001 for all), respectively. The average 36-item Short-Form survey physical component summary/mental component summary scores at the last follow-up were 55.1/56.8. A dural tear was detected intraoperatively in 1 patient and repaired immediately. CONCLUSION: Subtotal PVCR combined with the insertion of an expandable titanium cage was detected as a safe and effective method for osteoporotic vertebrae fractures' sequelae in the older population involving spinal cord compression by enabling the decompression of the spinal canal and reconstruction of the resected segment, resulting in significant improvement in clinical and radiographic outcomes.

Adjacent segment degeneration and spinal cord compression in rigid angular kyphosis of spinal tuberculosis and its intraoperative management strategy.

Objective: This study aimed to evaluate the clinical effects of a posterior surgical strategy for rigid angular kyphosis in the healed late stage of thoracolumbar tuberculosis, especially emphasizing the management of adjacent segment degeneration.Design: This is a retrospective study.Setting: This study was performed at Union Hospital, Tongji Medical College, Wuhan, ChinaParticipants: A total of 11 patients with rigid angular kyphosis in the healed late stage of thoracolumbar tuberculosis were included.Interventions: Each patient underwent posterior vertebral column resection (PVCR) for the correction of kyphosis, and mPSO was used for decompression of the stenotic adjacent segments.Outcome measures: Postoperatively, clinical and radiological evaluation was assessed.Results: Eight patients underwent PVCR, and 4 patients underwent both the PVCR and mPSO procedures. The average operation time was 6.5 hours (4.5-7.5 hours). The kyphotic angle improved from 97.5 ± 21.3° preoperatively to 45.4 ± 17.2° postoperatively. According to the ASIA grading system, 8 patients recovered to grade E, 2 to grade D, and 1 patient to grade A.Conclusion: PVCR is an effective procedure for the correction of rigid angular kyphosis in patients with spinal tuberculosis. Adjacent segment degeneration is an important risk factor for causing neurologic deficits, and posterior surgical management for angular kyphosis of thoracolumbar tuberculosis and spinal decompression using mPSO are recommended.

A rare intraoperative spinal cord injury caused by thoracic 8 nerve root interruption during posterior vertebral column resection surgery for severe congenital kyphoscoliosis: a case report.

BACKGROUND: To our knowledge, the exposed nerve roots in thoracic spine are usually sacrificed to facilitate osteotomy during posterior vertebral column resection (PVCR) for severe spinal deformity. Currently we report a case with severe spine deformity in which intraoperative neurological monitoring (IOM) loss after interrupting T8 nerve root finally led to spinal cord injury during PVCR surgery. CASE PRESENTATION: The patient was a 14-year-old female with severe congenital kyphoscoliosis (CKS) without preoperative neurologic deficits. The IOM events (MEP loss and SSEP latency prolong) were showed when T8 nerve root at concave side was interrupted. And then we reduce the scope of osteotomy to control bleeding, raised blood pressure (MAP, 65-80) to increase blood supply for spinal cord, placed the bilateral rod to stabilized the spinal cord, used the methylprednisolone, explored the presence or absence of spinal cord compression, and prepared to change the surgical plan from PVCR to PSO. After that the IOM signals partial recovered from the lowest point. Postoperatively the patients showed transient motor function deficits of left lower limbs weak without somatosensory deficits, and come back to preoperative status 6 months later. CONCLUSIONS: Interrupting the thoracic spine nerve root is danger to trigger the spinal cord injury during PVCR procedure of severe CKS. That probably because the increasing tension of contralateral anterior horn area of spinal cord via the nerve root pulling.

Modified posterior vertebral column resection for severe spinal deformity: a retrospective, comparative study.

BACKGROUND CONTEXT: Posterior vertebral column resection (PVCR) has several advantages over a combined anterior-posterior procedure for management of severe, rigid spinal deformities. The technique, described by Suk et al., has a high complication rate. Modifications of the technique which can reduce this complication rate might make this challenging procedure safer. PURPOSE: To report the results of PVCR in severe, rigid spinal deformity; to describe a modified technique for PVCR and compare its results with the conventional technique. STUDY DESIGN: Retrospective cohort. PATIENT SAMPLE: A total of 38 patients who underwent PVCR for severe, rigid spinal deformities. OUTCOME MEASURES: Mean correction of deformity (sagittal and/or coronal), estimated blood loss, operation time, neurological and non-neurological complications, patient-reported outcome score (SRS-22r). METHODS: Thirty-eight patients underwent PVCR for severe, rigid spinal deformities. These patients had a deformity in excess of 90° and a flexibility index <20%. Twenty-one of 38 patients (Group 1) underwent PVCR by the technique reported by Suk et al.; 17 patients (Group 2) underwent a modified PVCR technique. Our technique involves retaining the posterior elements until the other steps of PVCR are completed, which prevents ventral settling and allows for less handling of an already tight spinal cord. The results and complications were compared between the two groups. RESULTS: The mean operating time was 251 minutes and the mean blood loss was 1,251 mL. Mean coronal correction of 50% and a mean sagittal correction of 52.4% were achieved. Intraoperative loss of motor evoked potentials was seen in eight patients while there were two instances of permanent postoperative deficit, both occurring with the conventional PVCR technique. The average operating time, mean correction and blood loss did not differ between the two techniques. There was, however, a reduction in the occurrence of neurological complications with the authors' modified technique. CONCLUSIONS: Our retrospective study with a small cohort suggests that the authors' modified technique of PVCR, wherein the posterior elements are preserved until just prior to attempting to correct the deformity, may be safer in terms of neurological complications when compared with the conventional technique. However, larger studies are warranted to conclusively establish this.

Posterior vertebral column resection for rigid proximal thoracic kyphoscoliosis with broken growing rods in a patient with Desbuquois dysplasia.

STUDY DESIGN: Case report. OBJECTIVE: To describe the importance of preoperative halo-gravity traction and posterior vertebral column resection (PVCR) for severe proximal thoracic kyphoscoliosis associated with Desbuquois dysplasia, after breakage of a growing rod construct. Desbuquois dysplasia is a rare, autosomal recessive chondrodysplasia characterized by short stature, joint laxity, kyphoscoliosis, and characteristic facial dysmorphism. Our 8-year-old patient developed severe, progressive, infantile-onset kyphoscoliosis and had been initially treated with Vertical Expandable Prosthetic Titanium Rib (VEPTR) rods. She subsequently underwent growing rod placement, but the eventual rod fracture resulted in a severe angular kyphosis. METHODS: Clinical and radiographic case review. RESULTS: The broken implants were removed, and she was treated with 2.5 months of preoperative halo-gravity traction. She then underwent a T4 PVCR and C7-L4 instrumented posterior spinal fusion. The patient had an uneventful postoperative course without any neurologic problems. Two years postoperatively, correction was well maintained with appropriate alignment and balance without implant breakage. CONCLUSION: To our knowledge, this is the first report of treatment of spinal deformity associated with Desbuquois dysplasia. Our results suggest that preoperative halo-gravity traction and PVCR are safe and efficacious techniques for severe rigid kyphoscoliosis in the cervicothoracic region associated with broken growing rods in a patient with Desbuquois dysplasia. LEVEL OF EVIDENCE: Level IV.

Intraoperative tension pneumothorax during posterior vertebral column resection in a child with congenital scoliosis.

BACKGROUND: Intraoperative tension pneumothorax (TPT) is extremely rare in spinal surgery overall and particularly in extensive deformity procedures. Here, we report a TPT occurring in conjunction with posterior vertebral column resection (pVCR) for the treatment of congenital scoliosis. CASE DESCRIPTION: A 12-year-old female undergoing congenital thoracic scoliosis surgery (e.g., pVCR) developed abrupt intraoperative increases in airway pressure and compromised hemodynamics that led to a TPT. This was directly attributed to an inadvertent pleural tear. Temporary drainage of the accumulated air was accomplished with a urethral catheter inserted directly into the pleural cavity. This was later supplemented with a standard chest tube. The child quickly improved and was routinely discharged a few days later. CONCLUSION: In patients undergoing pVCR, if the surgical team is faced with unexplained hemodynamic instability and increased airway resistance, a TPT should be strongly suspected and appropriately managed.

Multimodality Intraoperative Neuromonitoring in Severe Thoracic Deformity Posterior Vertebral Column Resection Correction.

BACKGROUND: Multimodal intraoperative neuromonitoring (IONM) has been proposed as an effective way to reduce permanent neurologic injury during spinal deformity surgery. However, few studies have reported evoked potential changes at different surgical stages of thoracic posterior vertebral column resection (PVCR). METHODS: A total of 82 cases with severe thoracic deformity (Yang's A type) treated by PVCR in a single institution between January 2010 and March 2015 were reviewed. Multimodal IONM including somatosensory evoked potential, motor evoked potential, and descending neurogenic evoked potential was performed for real-time assessment of spinal cord function during surgery. The risk factors of neuromonitoring events at different surgical stages were documented and analyzed. RESULTS: Multimodal IONM was successfully performed in all 82 cases. Thirty-nine neuromonitoring events presented in 27 (32.9%) cases. Neurologic monitoring events were more likely to occur in patients with larger scoliosis and kyphosis, longer osteotomy closure distance, more Halo gravity traction, more screw insertion, and higher PVCR segments. The reasons for monitoring changes included 6 events during screw insertion, 20 during osteotomy, 9 during osteotomy gap closure, and 4 during deformity correction. New postoperative neurologic deficits were observed in 11 (13.4%) cases including 1 incomplete paraplegia, 8 transient cord deficits, and 2 nerve root injuries. CONCLUSIONS: Multimodal IONM can effectively identify neurologic deficits throughout surgery. Osteotomy and osteotomy gap closure are the surgical stages with the highest neurologic risks during PVCR procedures. It is imperative to improve dexterity since the majority of neuromonitoring events are caused by surgical techniques.

Severe Kyphoscoliosis Associated with Multiple Giant Intraspinal Epidural Cysts: A Case Report and Literature Review.

BACKGROUND: Severe kyphoscoliosis associated with multiple giant spinal epidural arachnoid cysts (SEACs) is an extremely rare condition and remains a challenge in clinical practice. This study aimed to present a case of severe spinal deformity associated with multiple giant SEACs and to discuss strategies for the preoperative diagnosis and treatment. CASE DESCRIPTION: A 22-year-old man with severe thoracolumbar kyphoscoliosis associated with multiple giant SEACs presented with progressive scoliosis, spastic paralysis, numbness, and abnormal gait. X-ray and magnetic resonance imaging revealed severe rigid kyphoscoliosis, extensive diffuse cystic space-occupying lesions, and diffuse spinal cord compression. After multidisciplinary consultation and discussion, the patient underwent a cyst-peritoneal shunting surgery followed by posterior vertebral column resection (PVCR) correction. The postoperative course was uneventful. Both kyphosis and scoliosis were significantly corrected, and muscle weakness of the lower extremities and sensory disturbance partially improved. At the 2-year follow-up visit, the patient could freely walk without the aid of crutches, but there were some residual neurologic deficits in both legs. A plain radiograph showed that bony fusion was achieved, and the correction was well maintained. CONCLUSIONS: Cyst-peritoneal shunting surgery followed by PVCR, as in our case, could be an alternative surgical strategy for multiple giant SEACs associated with severe rigid kyphoscoliosis.

Anterior instrumentation through posterior approach in neglected congenital kyphosis: a novel technique and case series.

PURPOSE: To present a novel technique for anterior instrumentation and reconstruction with PVCR for treatment of severe neglected congenital kyphosis through posterior approach. METHODS: Between 2010 and 2014, all patients with severe congenital kyphosis more than 90° were included. PVCR augmented with anterior vertebral body instrumentation was done for all patients through the same posterior approach. Cobb angle of the main kyphosis and scoliosis curves, the global sagittal and coronal balance were measured preoperatively, postoperatively and at 2-year follow-up. The functional outcome was assessed using the SRS-22 questionnaire preoperatively and at 2-year follow-up. RESULTS: Fourteen patients with mean age of 19.4 years were included. The mean follow-up period was 38 months. The mean number of resected vertebrae was 2.4 vertebrae per patient. The mean height of the anterior defect after resection was 6.4 cm. The mean preoperative local kyphosis angle was 104.6° that was corrected to a mean of 22.8° at 2-year follow-up. The sagittal vertical axis improved from 62.7 mm preoperatively to 21.4 mm at 2-year follow-up. The mean coronal Cobb angle was 71.2° preoperatively and 25.6° at 2-years follow-up. The mean coronal balance was 32.4 mm preoperatively and 13.6 mm at 2-year follow-up. All patients had significant improvement of the SRS-22 questionnaire at the last follow-up. CONCLUSION: Addition of anterior instrumentation to PVCR allows controlled gradual correction and more biomechanical stability. This technique should be preserved for high degrees of sagittal plane deformities. These slides can be retrieved under Electronic Supplementary Material.

Surgical Outcome Comparison of Posterior Vertebral Column Resection with or without Anterior Column Support in Treatment of Yang's Type A Severe Thoracic Spinal Deformity.

BACKGROUND: The use of posterior vertebral column resection (PVCR) has extended the treatment of severe spinal deformity. However, the practice guidelines for anterior column support in patients treated by PVCR remain ill defined. The objective of the present study was to compare the clinical and radiographic outcomes of severe thoracic spinal deformity treated by PVCR with and without anterior column support (ACS). METHODS: We performed a prospective study of 57 patients with severe thoracic deformity (classified as Yang's A type) treated by PVCR with or without anterior column support from January 2010 to April 2015. The patient characteristics, radiographic parameters, intraoperative data, and complications were analyzed to clarify these 2 clinical series. RESULTS: The sex, age, diagnosis, curve magnitude, and curve type were similar between the PVCR with ACS group (n = 21) and non-ACS group (n = 36) preoperatively. Evaluation of the radiographic parameters, intraoperative data, and complications found no statistically significant intergroup differences, except for the osteotomy distance (non-ACS group, 4.0 cm; ACS group, 5.3 cm; P < 0.001) and shortening distance of the osteotomy gap (non-ACS group, 4.0 cm; ACS group, 3.5 cm; P = 0.005). CONCLUSIONS: The results of the present study have shown that PVCR without ACS seems to be a safe and effective technique for Yang's A type severe thoracic spinal deformity correction compared with PVCR with ACS. PVCR without ACS requires a relatively smaller osteotomy range and could potentially decrease the risk of implant failure due to bone to bone fusion.

Surgical treatment for severe and rigid scoliosis: a case-matched study between idiopathic scoliosis and syringomyelia-associated scoliosis.

BACKGROUND CONTEXT: Treatment guidelines for severe and rigid syringomyelia-associated scoliosis (SRSMS) are limited. Typically, surgeons apply practice guidelines for severe and rigid idiopathic scoliosis (SRIS) to treat SRSMS. No study has directly compared the results of surgical treatment between patients with SRSMS and those with SRIS. PURPOSE: The present study was performed to compare the outcomes of surgical correction of SRSMS and SRIS from clinical and radiographic perspectives. STUDY DESIGN: This is a retrospective, case-matched, single-center, institutional review board-approved study. PATIENT SAMPLE: A total of 26 patients with SRSMS or SRIS treated by an anterior and posterior vertebral column resection approach or an internal distraction approach were enrolled. OUTCOME MEASURES: The SRSMS and SRIS groups were compared on the following variables: fusion length, screw number, operation time, estimated blood loss, follow-up duration, different radiological parameters (including main thoracic curve, cranial compensatory curve, caudal compensatory curve, thoracic kyphosis, lumbar lordosis, thoracic apical vertebral translation, coronal balance, and sagittal vertical axis), Scoliosis Research Society (SRS)-22 scores, and complication rate. METHODS: Thirteen patients with SRSMS were matched with patients with SRIS on curve magnitude, the flexibility of the main curve, surgical procedure, age, and gender. All patients had a minimum of 2 years of follow-up. The radiographic parameters and demographic data from patients were evaluated before surgery, immediately after surgery, and at the latest follow-up. RESULTS: The case matches were relatively ideal except one pair with the main curve in the opposite direction. There was no significant difference in fusion length, screw number, operation time, estimated blood loss, or follow-up duration between the two groups. No significant differences were found between the two groups in the main curve or caudal compensatory curve before surgery, immediately after the operation, or at the final follow-up. The correction of thoracic apical vertebral translation in the SRIS group was better than that in the SRSMS group. The SRSMS group had a larger preoperative, postoperative, and final follow-up cranial compensatory curve and a lower correction rate than did the SRIS group. There was no significant difference in preoperative coronal balance between the two groups. After surgery, the coronal balance in the SRSMS and SRIS groups averaged 24.4±13.2 mm and 12.1±7.9 mm, respectively, which was significantly different (p=.04). At the most recent follow-up, the coronal balance in the SRSMS group improved to 14.8±12.6 mm, and it was 11.8±8.6 mm in the SRIS group. No significant difference was found between the two groups (p=.56). There was no significant difference in thoracic kyphosis, lumbar lordosis, or sagittal vertical axis before surgery, immediately after the operation, or at the final follow-up. Before surgery and at the final follow-up, the two groups had similar scores on function, pain, self-image, mental health, and satisfaction. There was no significant difference in complication rates between the two groups. CONCLUSIONS: Typically, surgical correction outcomes are similar in patients with SRSMS and SRIS. Patients with SRIS tended to have a smaller cranial compensatory curve and better correction of the cranial compensatory curve and thoracic apical vertebral translation. Patients with SRSMS tended to have a higher proportion and greater amount of postoperative coronal imbalance, which may be improved during follow-up.

The Treatment of Severe Congenital Scoliosis Associated With Type I Split Cord Malformation: Is a Preliminary Bony Septum Resection Always Necessary?

BACKGROUND: Single-stage spine-shortening osteotomy without treating spinal cord malformations may have potential advantages for the treatment of severe congenital scoliosis (CS) with type I split spinal cord malformation (SSCM); however, the study of this technique was limited. OBJECTIVE: To evaluate the safety and efficacy of a single-stage spine-shortening osteotomy in the treatment of severe CS associated with type I SSCM. METHODS: A retrospective study was designed to compare 2 case series including 12 severe CS patients with type I SSCM and 26 patients with type A cord function (without spinal cord malformations, evoked potential abnormalities, and neurological dysfunctions preoperatively) treated with a single-stage spine-shortening posterior vertebral column resection (PVCR). Patient demographic, clinical, operative, and radiographic data were obtained and compared between groups. RESULTS: The surgical procedure was successfully performed in both groups, and the patients were observed for an average of 44.9 mo (range 25-78 mo) after the initial surgery. The radiographic parameters, intraoperative data, and new neurological deficits showed no difference, while deformity angular ratio (SSCM group: control group = 16.6 ± 3.6: 20.1 ± 3.9, P = .01) and corrective rate (SSCM group: control group = 50%: 58%, P = .046) of the main curve were statistically different between groups. All of the new neurological deficits were recovered within 1 yr. CONCLUSION: The single-stage spine-shortening PVCR with moderate correction could be applied to the treatment of CS associated with type I SSCM. This strategy can achieve safe spinal deformity correction while obviate the neurological complications brought by the detethering procedures, which merits further clinical investigation.

Modified posterior unilateral subtotal corpectomy osteotomy correction for old thoracolumbar vertebral fractures combined with kyphosis / 中华创伤杂志

Objective To evaluate the efficacy of modified posterior unilateral subtotal corpectomy osteotomy correction for old thoracolumbar vertebral fractures combined with kyphosis. Methods A retrospective case series study was conducted to analyze 18 patients with old thoracolumbar vertebral fractures combined with kyphosis admitted to the Henan Provincial People's Hospital from January 2012 to October 2016. There were 10 males and eight females, aged 25-70 years, with an average age of 38. 2 years. The injured segments and osteotomy segments included T11 in one patient, T12 in four, L1 in six, and L2 in seven. Five patients had neurological impairment symptoms classified as grade D according to Frankel's classification. All patients underwent the modified posterior unilateral subtotal corpectomy osteotomy correction. The operation time and intraoperative blood loss were recorded. The visual analogue score (VAS), Oswestry dysfunction index (ODI) and kyphosis Cobb angle were compared before operation, half a year after operation and at the last follow-up. The osteotomy fusion was evaluated by Suk criterion and Frankel grading was used to evaluate the recovery of nerve function. The complications were also recorded. Results All patients were followed up for 12-24 months, with an average of 17. 6 months. The operation time was 160-285 minutes [(190. 0 ± 42. 6) minutes, and the intraoperative blood loss was 500-800 ml [(610. 0 ± 134. 3) ml]. The difference of kyphosis Cobb angle between preoperative [(40.5±9.8)°] and [(5.5 ±1.6)°] at 6 months postoperatively had statistical significance (P <0. 05). Compared with the kyphosis Cobb angle of 6 months postoperatively [(5. 5 ± 1. 6)°], the Cobb angle at the final follow-up [(6. 2 ± 1. 5)°] did not change significantly (P>0. 05). The VAS score and ODI at 6 months after operation and at the final follow-up [(3. 1 ± 1. 3)points,(2. 7 ± 0. 7)points and 7. 5 ± 5. 1, 6. 4 ± 2. 5] were significantly different compared with those before operation [(7. 6 ± 2. 4)points, 68. 7 ± 10. 4] (P<0. 05). Bone cutting surface was healed osseously in all patients. The five patients with preoperative neurological impairment of grade D were assigned with grade E at the last follow up. There were two patients with dural rupture and one with pleural effusion during the operation. No complications such as nerve damage, infection or thrombosis occurred. No loosening, fracture or heterotopic ossification occurred during follow-up. Conclusion For old thoracolumbar vertebral fracture combined with kyphosis, the modified posterior unilateral vertebral column resection through unilateral approach can not only achieve the bone fusion between the injured vertebra and the adjacent vertebral body, but also avoid the shortening of the spine, correcting kyphosis and relieving pain, with low incidence of complications.