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.

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.

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.

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.

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.

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.

Incidence and risk factors of neurological complications during posterior vertebral column resection to correct severe post-tubercular kyphosis with late-onset neurological deficits: case series and review of the literature

Background

Severe post-tubercular kyphosis with late-onset neurological deficits is difficult to treat, with high risk of neurological complications. This study retrospectively evaluates the efficacy and safety of posterior vertebral column resection (PVCR) for treating severe post-tubercular kyphosis with late-onset neurological deficits.

Methods

From January 2012 to December 2015, 13 patients with severe post-tubercular kyphosis underwent PVCR. All these patients were of late-onset neurological deficits. The operative time, blood loss, preoperative and postoperative kyphotic angles, sagittal vertical axis (SVA), neurological status, and complications were recorded. The preoperative and postoperative Oswestry Disability Index (ODI) scores and visual analog scale (VAS) scores for back pain were compared. The American Spinal Injury Association (ASIA) grading system was used to evaluate neurological function.

Results

The mean postoperative follow-up period was 28.6 months. The mean operative time was 388 ± 46 min. The mean blood loss was 2554 ± 1459 ml. The mean preoperative and postoperative kyphotic angles were 93.7 ± 14.4° and 31.7 ± 7.3°, respectively, with a mean correction of 62.0 ± 13.8°. The mean preoperative and postoperative SVA were 43.2 ± 44.4 mm and 17.8 ± 16.2 mm, respectively. The mean ODI score improved from 56.3 ± 5.1 preoperatively to 18.3 ± 18.5 at last follow-up. The mean VAS score improved from 6.4 ± 1.8 preoperatively to 1.8 ± 0.8 at last follow-up. Two cases had spinal cord injuries, including one complete paraplegia and one incomplete paraplegia, and a total neurological complication rate of 15.4%. The risk factors for neurological complications were summarized.

Conclusions

Severe post-tubercular kyphosis with late-onset neurological deficits can be corrected by PVCR carefully and properly to prevent neurological complications. In many cases with stenosis adjacent to the angular kyphosis, sufficient decompression of the spinal cord at the segments with stenosis is necessary before correcting the kyphosis.

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.

Expert consensus for PVCR in severe, rigid and angular spinal deformity treatment: The Kunming consensus

In the past decades, an increasing number of surgeons started using posterior vertebral column resection (PVCR) to treat severe, rigid and angular spinal deformities. Little high-level evidence is available to guide surgical treatment. The aims of our study were to identify important surgical strategies and key technical points of Chinese experts who have extensive experience in the management of severe, rigid and angular spinal deformities using PVCR, and to standardize and unify the current core concepts. Workgroups of consensus were formed by selecting nationwide representing experts and comprehensive consultations. Eight task forces for major issues were established, then retrieval of literature, collection of expert opinions and writing of review articles were carried out. A modified Delphi process was chosen in round-table forum with three face-to-face meetings. Consensus was reached with items graded more than seven points including: indications and contraindications of PVCR; review PVCR in the evolution of spinal osteotomies; The corrective mechanism and safety of spinal cord; monitoring and responses of spinal cord crisis; characteristics and therapeutic outcome of pulmonary function; management of bleeding during PVCR; relationship of pedicle screw insertion and spinal cord safety; and analysis of non-neurologic complications and prevention strategies. In conclusion, The essential properties regarding PVCR procedure are tightly linked with various factors such as medical and surgical indication, range and level of vertebral column resection, strategies of correction, corrective efficiency and control of neurological risk. PVCR is used mainly for severe, rigid spinal deformity that is not manageable by other osteotomy techniques.

Severe Rigid Scoliosis: Review of Management Strategies and Role of Spinal Osteotomies

Severe rigid curves pose a considerable challenge to the treating spine surgeon. In our practice, approximately 30%–40% of patients with scoliosis present late with severe rigid scoliosis (>90° and <30% correction on bending films). Controversy still exists with regard to the ideal surgical strategy for correcting these rigid curves. Rigid scoliosis often presents in the form of either sharp angular or rounded deformities. Rounded deformities can be effectively managed with an anterior release to loosen the apex and posterior instrumentation (with osteotomies, if required). In contrast, severe rigid scoliosis, which is a sharp angular deformity, is not very amenable to anterior release and is best managed by posterior-only vertebral column resection and posterior instrumentation.

Analysis of complications following posterior vertebral column resection for the treatment of severe angular kyphosis greater than 100°

Objective

The aim of this study was to evaluate the complications, efficacy and safety of posterior vertebral column resection (PVCR) in severe angular kyphosis (SAK) greater than 100°.

Methods

The medical records of 17 patients (mean age 17.9 (range, 9–27) years) with SAK who underwent PVCR, were reviewed. Mean follow-up period was 32.2 (range, 24–64) months. Diagnosis of the patients included congenital kyphosis in 11 patients, post-tuberculosis kyphosis in 3 patients and neurofibromatosis in 3 patients. The sagittal plane parameters (local kyphosis angle, lumbar lordosis, sagittal vertical axis, pelvic tilt, sacral slope and pelvic incidence) were measured in the preoperative and the early postoperative periods and during the last follow-up on the lateral radiographs.

Results

The mean preoperative localized kyphosis angle was 121.8° (range, 101°–149°). The mean local kyphosis angle (LKA) was 71.5° at postoperatively evaluation (p < 0.05). Complications were detected in 12 patients (70.6%) with spinal shock in 4 patients, hemothorax in 3 patients, postoperative infection in 2 patients, dural laceration in 2 patients, neurological deficit in 2 patients (1 paraplegia and 1 root injury), the shifted cage in 2 patients and rod fracture in 2 patients. Neurological events occurred in six patients (35%) with temporary neurological deficit in 5 patients and permanent neurological deficit in 1 patient.

Conclusion

PVCR is an efficient and a successful technique for the correction of SAK. However, it can lead to a large number of major complications in SAK greater than 100°.

Level of evidence

Level IV, therapeutic study.

Neurological complications of thoracic posterior vertebral column resection for severe congenital spinal deformities

PURPOSE

The risk of neurological injury during vertebral column resection is high. In this study, we investigated the incidence and risk factors for neurological complications when treating spinal deformities by thoracic posterior vertebral column resection (PVCR).

METHODS

Between 2008 and 2013, there were 62 consecutive patients (34 female patients and 28 male; the mean age: 16.3 years, range 6-46 years) treated with thoracic PVCR. We retrospectively reviewed the clinical records to obtain demographic and radiographic data, operative time, estimated blood loss (EBL, the ratio between circulating and lost blood), bleeding volume (the lost blood), number of vertebrae fused, number of vertebrae resected, usage of titanium mesh cage, and intraoperative neuromonitoring data. Multi-factor logistic regression was used to find the major risk factors for neurological complications.

RESULTS

The average follow-up period was 46 months (range 24-88 months); no patients were lost to follow up. The average operative time was 524.8 ± 156.8 min (range 165.0-880.0 min), the average bleeding volume was 2585 ± 2210 ml (100-9600 ml), and the average estimated blood loss was 75.8% (9-278%). Ten patients (16.1%) developed post-operative neurological complications (nine transient and one permanent). Multi-factor logistic regression revealed that the risk factors for neurological complications were age ≥18 years, pulmonary dysfunction, and EBL >50%.

CONCLUSIONS

Thoracic PVCR can lead to satisfactory outcomes in the treatment of severe spinal deformities. Risk factors for neurological complications include the age over 18 years, presence of pulmonary dysfunction, and EBL greater than 50%. The pulmonary dysfunction can be regarded as the most valuable indicator to measure the severity of the spine deformity.

The effect from different numbers of segmental arteries ligation to the spinal cord in the clinical practice of posterior vertebral column resection correction

PURPOSE

In using posterior vertebral column resection (PVCR) to treat severe kyphoscoliosis, it is unavoidable to ligate and cut off several segmental arteries (SAs) of the spinal cord for exposure and hemostasis, but which would raise the neurological risks. The aim of this study is to explore the changes of intraoperative spinal cord monitoring (IOM) following ligating different numbers of SAs in PVCR.

METHODS

Twenty-one consecutive patients with severe kyphoscoliosis were included and treated by PVCR correction. In operation, according to ligate different numbers of SAs, the IOM changes were recorded, respectively. Examinations of the covariance between different numbers of SAs ligations and IOM changes were performed to reveal the effect to the spinal cord by SAs ligations.

RESULTS

In all the 21 cases, averaging 1.9 pairs of SAs were ligated. With the increased numbers of ligations, SSEP amplitudes and latencies were changed more obviously: from 1 to 3 pairs ligations, the mean decreased percentages of amplitudes were from 53.20 to 78.15%, the mean increased percentages of latency were from 1.23 to 1.40%, and the mean durations of decreased SSEP amplitudes were from 3.23 to 5.2 min; but without abnormal MEP changes. None occurred postoperative or delayed neurological deficit. Correlation analysis identified significant correlations between the number of SAs ligation and decreased percentage of SSEP amplitude (r = 0.945, P < 0.0001), and between the number of SAs being ligated and the duration of SSEP change (r = 0.945, P = 0.0002).

CONCLUSIONS

Following the increased number of SAs ligation, the amplitude of SSEP is decreased more obviously with a much longer duration of recovery and the risk to spinal cord will be increased greatly. In the PVCR correction on the basis of spinal shortening, the numbers of SAs ligations should be as less as possible for neurological safety.

Progressive Kyphosis Associated with Tethered Cord Syndrome Treated by Posterior Vertebral Column Resection in a Pediatric Patient

Posterior vertebral column resection is a novel surgical approach for the treatment of progressive kyphosis associated with tethered cord syndrome that was first treated with untethering surgery. A patient with tethered cord syndrome associated with kyphosis first underwent untethering surgery, resulting in progressive kyphosis. Posterior vertebral column resection was performed to correct the kyphosis while shortening the spinal column to prevent the spinal cord from stretch injury. Good correction of kyphosis and reduction of tension on the neural elements were achieved without any neurological deficits. In progressive kyphosis associated with tethered cord syndrome, posterior vertebral column resection after untethering surgery represents a safe and efficacious but technically challenging option.

The aim of this retrospective study is to evaluate the efficacy and safety of posterior-only vertebral column resection (PVCR) for the treatment of angular and isolated congenital kyphosis

PURPOSE

The aim of this retrospective study is to evaluate the efficacy and safety of posterior-only vertebral column resection (PVCR) for the treatment of angular and isolated congenital kyphosis.

METHODS

24 patients with isolated angular congenital kyphosis treated by PVCR in our hospital were retrospectively studied. The patients' radiographs and hospital records were reviewed. Deformity in sagittal planes and global sagittal alignment were analyzed for correction and maintenance of the correction in preoperative, postoperative, and follow-up radiographs. The complications and related risk factors were analyzed.

RESULTS

The average age was 13.9 (4-40) years. Three of them were revision surgeries. Two patients have intraspinal anomalies. The mean follow-up is 56.9 (26-129) months. The mean operation time was 293.1 (170-480) min. The averaged blood loss was 993.8 (250-3000) ml. The segmental kyphosis was 87.3° before surgery, 17.6° post surgery and 20.4° at the latest the follow-up. And the sagittal vertical axis was improved from 43.1 mm to 9.2 mm. Mean total score of SRS-22 was 89.3. Complications occurred in 4 patients, including 1 screw pullout due to pseudarthrosis, 1 proximal junctional kyphosis, 1 incomplete spinal cord injury and 1 root injuries.

CONCLUSION

Posterior-only vertebral column resection is an ideal procedure for severe rigid congenital kyphosis. However, it is still a highly technical demanding procedure. Neurological compromises still remain the biggest challenges. Sufficient height of anterior reconstruction, avoidance sacrifice of bilateral roots in the same level in the thoracic spine, avoidance of the sagittal translation of the upper and lower vertebras, intra-operative neuromonitoring, and preoperative surgical release of diastematomyelia and tethered cord may help to improve the safety.

Posterior 2-Level Vertebral Column Resection for the Treatment of Progressive Rotational Dislocation in Kyphoscoliotic Deformities

OBJECTIVE

Progressive rotational dislocation of the spine is rare and surgical treatment is challenging. Few reports have described surgical decompression, fusion, and partial correction by traditional 2-stage anterior decompression and the posterior fixation technique. The goal of this retrospective study was to report a series of 6 patients with this deformity and the outcome after treatment by posterior-only 2-level vertebral column resection (PVCR).

METHODS

Between 2011 and 2014, 6 patients were treated for kyphoscoliotic deformities with progressive rotational dislocation. In these 6 patients (2 males and 4 females), the diagnosis included 4 cases of congenital kyphosis and 2 cases of neurofibromatosis; the distribution of spine level was from T4 to T11; the kyphosis angle of the patients was 115° (range, 107-125°); the scoliosis angle was 97° (range, 80°-117°); follow-up ranged from 13 to 51 months (mean, 27 months). Four patients developed progressive onset of neurologic deficit. All patients underwent surgery by 2-level PVCR for decompression and correction of kyphoscoliosis.

RESULTS

Postoperatively, the patients all had different kyphosis correction rates, from 49% to 72% (mean, 63%) and scoliosis correction rates, from 57% to 78% (mean, 65%). All patients achieved successful spinal fusion with less than 3° of loss of correction at the latest follow-up evaluation. The 4 patients with incomplete neurologic deficits improved 1 or 2 American Spinal Injury Association scales at follow-up of at least 6 months.

CONCLUSIONS

Two-level PVCR is a safe and efficacious surgical option for the treatment of rotational dislocation in kyphoscoliosis and associated neurologic deficit.

Surgical outcomes by age at the time of surgery in the treatment of congenital scoliosis in children under age 10 years

BACKGROUND CONTEXT

There is little information regarding the surgical outcomes with regard to the timing of surgery in children under age 10 years for congenital scoliosis with a long-term follow-up.

PURPOSE

The purpose of this study was to compare the surgical outcomes for congenital scoliosis in children 6 years or older but less than 10 years of age.

STUDY DESIGN

This is a retrospective study.

PATIENT SAMPLE

Eighteen congenital scoliosis patients under age 10 years at the time of surgery were treated by posterior hemivertebra resection and bilateral pedicle screw fixation.

OUTCOME MEASURES

Outcome measures are radiological outcomes (plain radiographs and computed tomography) and complications.

METHODS

Eighteen congenital scoliosis patients (n=18) under age 10 years at the time of surgery were treated by posterior hemivertebra resection and bilateral pedicle screw fixation. These cases were retrospectively studied and had a minimum of 7-year follow-up. We assigned patients into two groups: Group 1 (n=9) patients who had surgery before 6 years of age and Group 2 (n=9) those who had surgery after 6 years of age.

RESULTS

The groups were not found to be statistically different in operative time, blood loss, and follow-up period. In the Group 1, the mean Cobb angle of the main curve was 32.4° before surgery, 6.4° after surgery, and 9.1° at last follow-up. In the Group 2, the mean Cobb angle of the main curve was 36.5° before surgery, 10.4° after surgery, and 14.5° at last follow-up. There was significantly better deformity correction of main curve immediate postoperatively and at last follow-up in Group 1. No significant difference was observed in growth rate of the vertebral body and spinal canal parameters comparing the two groups at the vertebra with or without screws. There was no crankshaft phenomena, no clinical or radiographic features suggestive of spinal stenosis during follow-up, and no major vascular or neurological complications related to the pedicle screws in either group.

CONCLUSIONS

In congenital scoliosis patients, posterior hemivertebra resection after pedicle screw fixation before the age of 6 years had significantly better deformity correction and did not cause a negative effect on the growth of vertebral body or spinal canal compared with the group treated after 6 years of age. Therefore, early surgical correction of a congenital hemivertebra in children under 6 years of age, before structural changes occur, effectively achieves a more satisfactory correction without causing iatrogenic spinal stenosis or neurologic complications compared with children older than 6 years but under 10 years of age.

Early outcomes and complications of posterior vertebral column resection

BACKGROUND CONTEXT

Hyperkyphosis confers a significant risk for neurologic deterioration as well as compromised cardiopulmonary function. Posterior vertebral column resection (PVCR) is a challenging but effective technique for spinal cord decompression and deformity correction that even under the setting of limited resources can be performed to reduce the technical difficulties, the operating time, and possibly the complications of the traditional two-staged vertebral column resection (VCR).

PURPOSE

To report on the results of VCR performed through a single posterior approach (PVCR) in the treatment of severe rigid kyphosis in a series of patients treated and followed at a Scoliosis Research Society Global Outreach Program site in West Africa.

STUDY DESIGN

Retrospective case series.

PATIENT SAMPLE

Forty-five consecutive patients treated with PVCR for correction of severe rigid kyphosis.

OUTCOME MEASURES

Clinical and radiographic outcomes and complications; Scoliosis Research Society outcome instrument (SRS-22).

METHODS

From 2002 to 2009, 45 patients (20 male and 25 female) underwent PVCR for kyphosis from congenital deformity (nine) or secondary to tuberculosis of the spine (36). Preoperative demographics, preop and postop neurologic status, SRS-22 scores and complications were recorded; upright full spine X-rays were available in all patients. Mean age was 14 years (6-47 years); mean follow-up 27 months (2-79 months). Mean preoperative kyphosis measured 108°. The deformity apex was resected via a costotransverse (thoracic) or posterolateral (lumbar) approach; neurosurveillance with sensory (somatosensory-evoked potentials) and motor (motor-evoked potentials) potential was used in all cases. Posterior instrumentation was used in all patients, and anterior structural cage was used in 32 patients.

RESULTS

Intraoperative monitoring changes occurred in 10 patients (22%), and one patient progressed to complete spinal cord injury. Average preoperative local kyphosis was 108° and corrected to 600 postoperatively. Postoperatively, no additional patient showed neurologic deterioration; of the 11 patients with preoperative gait disturbances, 4 improved to normal gait, 5 remained the same, and 2 showed deterioration of their walking ability to nonambulating level. Total SRS-22 scores improved from 3.18 to 3.54 (p=.01), primarily self-image domain.

CONCLUSIONS

Posterior vertebral column resection was successfully undertaken for the management of thoracic and thoracolumbar hyperkyphosis, demonstrating improvements in overall kyphosis and clinical outcome. Neuromonitoring provided the required safety to perform these challenging complex spine deformity procedures.

Preliminary investigation of high-dose tranexamic acid for controlling intraoperative blood loss in patients undergoing spine correction surgery

BACKGROUND CONTEXT

With a significant increase in the number and complexity of spinal deformity corrective surgeries, blood loss, often requiring massive intraoperative transfusions, becomes a major limiting factor during surgery. This scenario is particularly during posterior vertebral column resection (PVCR), where extensive intraoperative blood loss may pose a major risk to the patient, preventing smooth execution of the procedure. Tranexamic Acid (TXA) has been used in cardiac and orthopedic surgeries, including major spinal surgeries, to reduce blood loss and transfusion requirements for decades.

PURPOSE

To assess the efficacy and safety of high doses of TXA in posterior spinal deformity corrective surgery, including PVCR procedures.

STUDY DESIGN

A retrospective study from a single institution.

PATIENT SAMPLE

Fifty-nine patients (age range 7 to 46 years old) with spinal deformities undergoing spinal corrective surgeries were included. The patients were divided into two groups: the TXA group (total of 26 patients, including 8 PVCR patients) and the control group (total of 33 patients, including 9 PVCR patients).

OUTCOME MEASURES

The analyzed outcome measures included estimated intraoperative blood loss, real blood loss (RBL; blood loss/blood volume×100%), blood transfusion requirements, coagulation parameters, complete blood count, liver function, and renal function. Lower limb vein thrombus, symptomatic pulmonary embolism, symptomatic myocardial infarction, seizures, and acute renal failure were also recorded.

METHODS

Before skin incision, the patients in the TXA group received an intravenous loading dose of 100 mg/Kg over a 20-minute period, followed by a maintenance infusion of 10 mg/Kg/h until skin closure was completed. The patients in the control group received saline infusion of a similar volume. Statistics included estimated intraoperative blood loss, RBL, blood transfusion requirements, coagulation parameters, complete blood count, liver function, and renal function. All patients in this study were also carefully monitored for consciousness level, breathing status, chest tightness or pain, and urine output after surgery. These were done to detect the presence or absence of pulmonary embolism, myocardial infarction, seizures, and acute renal failure. Patients treated with TXA were examined via vascular ultrasound before and after surgery.

RESULTS

There were no significant differences in the demographic or surgical traits between the two groups. The blood loss of the patients in the TXA group was 2,441±1,666 mL, whereas that of the control group patients was 4,789±4,719 mL. The difference was statistically significant (p<.05). The average RBL of the patients in the TXA group was 80.6%±49.6% versus 160.8%±163.1% in the control group (p<.05). The blood transfusion requirements for the patients in the TXA group were significantly less than that in the control group (p<.05). Blood loss, RBL, and blood transfusion requirements were all significantly lower in the TXA group, compared with the control group among both PVCR patients and non-PVCR patients. In the TXA group, there was an average of 57.4% reduced blood loss in patients who received PVCR and 39.8% in patients not receiving PVCR. There were no differences in liver and renal functions between the TXA and control groups. There was no lower limb vein thrombus, symptomatic myocardial infarction, symptomatic pulmonary embolism, seizures, or acute renal failure reported in the TXA group.

CONCLUSIONS

In our study, high doses of TXA have been shown to effectively control blood loss and reduce the transfusion requirement. This effect was more apparent in patients receiving PVCR. No adverse drug reaction was recorded in the study. In the future, prospective randomized controlled trials to validate our results will be necessary. Future studies conducted on older patient cohort may also be necessary to confirm the safety of extending the use of TXA to the older patients.

Preoperative short-term traction prior to posterior vertebral column resection: procedure and role

PURPOSE

Severe rigid spine deformity with sharp curve can be effectively corrected by posterior vertebral column resection (PVCR). Meanwhile, high risk of this procedure also has been recognized generally. The aim of this study is to review and evaluate the role of preoperative skull-femoral traction prior to PVCR for extremely severe rigid spinal deformity with sharp angular curve >150°.

METHODS

Twelve cases with extremely severe rigid deformities and sharp curves were treated by skull-femoral traction before operation. For them, the mean preoperative major scoliotic curve and kyphosis were 153° (110°-168°) and 109° (61°-180°). Continuous skull-femoral traction in supine position was started 4 weeks before operation. In the process of traction, tolerance, neurologic status, deformity changes, etc., were reviewed and documented for analysis. PVCR were performed in all these patients for final and main correction.

RESULTS

The final traction force in the 12 cases was 63% of body weight. After 4-week traction, the main scoliotic curve and kyphosis were decreased by 34 and 31%. In 1 week, main scoliotic curve and kyphosis were decreased by 19 and 15%. In 2 weeks, the major scoliosis curve was decreased by 11%, but kyphosis was unexpectedly increased by 4%. Deformity in the last 2 weeks was less significant than the first 2 weeks. After PVCR, the main scoliotic curve and kyphosis were improved 69 and 66%. No permanent neurological damage occurred.

CONCLUSION

Preoperative skull-femoral traction effectively mitigates the neurological risks of PVCR for extremely severe rigid spinal deformity with sharp curve. During traction, scoliosis can be improved more significantly and easily than kyphosis.

Predicting Kyphosis Correction During Posterior-Only Vertebral Column Resection by the Amount of Spinal Column Shortening

STUDY DESIGN

Retrospective.

OBJECTIVE

To investigate the relationship between the amount of correction achieved (K°) and extent of vertebral column shortening (mm) with posterior vertebral column resection (PVCR).

SUMMARY OF BACKGROUND DATA

There is no scientific reference to the correlation between K° and column shortening (mm) with PVCR.

METHODS

Based on simple geometry, we tested the hypothesis that we could predict the amount of actual kyphosis correction (K°) by calculation on 26 kyphotic PVCR patients. Using multiple linear measurements (mm), two angular approximations (°) were calculated: the geometric approximation (G°) using the geometric calculation (G-cal), and the rough approximation (R°) by more simplistic calculation (R-cal). Both G° and R° were compared against K° as measured on the pre- and postoperative radiographs. If calculated G° and R° is close to measured K°, we can use the calculations (G-cal and R-cal) in the clinical situation.

RESULTS

The mean correction of K° was 38°. K°-G° and K°-R° were not significantly greater than 3° and 6°, respectively. As K° was very close to G° and R°, K° can replace G° and R°. Therefore, we can use G-cal and R-cal in the clinical setting and we can determine how much posterior shortening and what cage size is required to obtain a certain amount of K°.

CONCLUSIONS

With two calculations (G-cal & R-cal), we can determine how much vertebral column shortening (mm) we need during PVCR to obtain the amount of kyphosis correction desired (K°). In order to obtain K°, using the formula deduced from G-cal and R-cal, we can determine the shortening between the upper and lower pedicle screws and cage size.

Matched Cohort Analysis of Posterior-Only Vertebral Column Resection Versus Combined Anterior/Posterior Vertebrectomy for Severe Spinal Deformity

STUDY DESIGN

Retrospective matched cohort analysis.

SUMMARY OF BACKGROUND DATA

Posterior-only vertebral column resection (P-VCR) is a potential alternative to combined anterior/posterior vertebrectomy (A-P/VCR) for the treatment of severe spinal deformity.

OBJECTIVE

To examine a matched cohort of adult and pediatric patients with severe spinal deformity treated with A/P-VCR versus P-VCR.

METHODS

Databases of 2 spine surgeons at 1 institution from 1994 to 2007 were reviewed. Patients were matched based on age at surgery (within 10 years), diagnosis, curve pattern, vertebrae resected (within 1), levels of vertebrae resected (within 2), levels fused (within 5), and minimum 2-year follow-up. A total of 34 P-VCR patients were identified who appropriately matched 34 A/P-VCR patients. The etiology of the deformity and type of curve were matched directly so that they were identical for each matched pair. The remainder of the inclusion parameters was matched as closely as possible between the 2 groups according to the criteria listed above.

RESULTS

Final coronal Cobb correction P-VCR versus A/P-VCR showed that 52.6% versus 53.9% (p = .8) was similar, whereas P-VCR final sagittal Cobb correction was superior: 53.0% versus 40.0% (p = .017). The P-VCR group had a significantly shorter total operative time (p = .002) and total length of stay (p = .003). Complications rates were similar and relatively infrequent for both P-VCR and A/P-VCR, including wound infections requiring operative intervention, subsequent revision surgery, and transient motor deficits. Total Scoliosis Research Society scores improved from preoperative to final follow-up for both P-VCR (p = .007) and A/P-VCR (p = .07) groups.

CONCLUSIONS

Posterior-only vertebral column resection is a challenging yet safe and effective means of treating severe scoliosis and/or kyphosis. Compared with an A/P-VCR for severe spinal deformity, P-VCR demonstrated shorter operative time and hospital stay, as well as improved sagittal correction and Scoliosis Research Society scores.

L1 Burst Fracture Through an Area of Pseudarthrosis-a Case Report

INTRODUCTION

This is the first report of a traumatic 3-column injury occurring through an asymptomatic pseudarthrosis site.

BACKGROUND SUMMARY

An all-posterior approach can obviate the need for a combined anteroposterior approach to the spine and can avoid all of the complications associated with a separate anterior approach. To our knowledge, there are no reports on the occurrence of a 3-column injury through a pseudarthrosis site and the treatment of this pathology via an all-posterior approach.

METHODS

We present a case of an L1 burst fracture that occurred through an area of pseudarthrosis that resulted in +40° thoracolumbar kyphosis and near complete collapse of the vertebral body with 50% canal compromise.

RESULTS

The patient was successfully treated with a posterior vertebral column resection from T11-L3 with anterior column support and a 3-rod construct posteriorly. Postoperatively, alignment was anatomically restored and the patient remained neurologically intact.

CONCLUSIONS

The all-posterior approach can be useful for the treatment of thoracolumbar traumatic injuries. Asymptomatic pseudarthrosis sites can be an area for traumatic injury that can be successfully treated with an all-posterior approach.

Complications of posterior vertebral resection for spinal deformity

STUDY DESIGN

Retrospective study.

PURPOSE

To evaluate the incidence and risk factors of complications following posterior vertebral resection (PVR) for spinal deformity.

METHODS

A review of 233 patients treated with PVR at one institution over a nine-year period (1997 to 2005) was performed. The average age was 33.5 years. Complications were assessed in terms of surgical techniques (posterior vertebral column resection [PVCR] and decancellation osteotomy) and etiologies of deformity.

RESULTS

Local kyphosis was corrected from 51.4° to 2.7°, thoracic scoliosis 63.9° to 24.5° (62.6% correction), and thoracolumbar or lumbar scoliosis 50.1° to 17.1° (67.6%). The overall incidence of complications was 40.3%. There was no significant difference between PVCR and decancellation osteotomy in the incidence of complications. There were more complications in the older patients (>35 years) than the younger (p < 0.05). Hig her than 3,000 ml of blood loss and 200 minutes of operation time increased the incidence of complications, with significant difference (p < 0.05). More than 5 levels of fusion significantly increased the total number of complications and postoperative neurologic deficit (p < 0.05). Most of the postoperative paraplegia cases had preoperative neurologic deficit. Preoperative kyphosis, especially in tuberculous sequela, had hig her incidences of complications and postoperative neurologic deficit (p < 0.05). More than 40° of kyphosis correction had the tendency to increase complications and postoperative neurologic deficit without statistical significance (p > 0.05). There was 1 mortality case by heart failure. Revision surgery was performed in 15 patients for metal failure or progressing curve.

CONCLUSIONS

The overall incidence of complications of PVR was 40.3%. Older age, abundant blood loss, preoperative kyphosis, and long fusion were risk factors for complications.