Orthopedic and neurosurgical treatment of severe kyphosis in myelomeningocele

Surgical limits, pitfalls, and potential solutions in kyphectomy in myelomeningocele: three cases and systematic review of the literature

OBJECTIVES

To describe surgical treatment of 3 cases of severe and progressive thoracolumbar kyphosis in myelomeningocele and provide a systematic review of the available literature on the topic.

METHODS

Medical records and pre- and post-operative imaging of 3 patients with thoracolumbar kyphosis and myelomeningocele were reviewed. A database search was performed for all manuscripts published on kyphectomy and/or surgical treatment of kyphosis in myelomeningocele. Patients' information, preoperative kyphosis angle, type of surgery, levels of surgery degrees of correction after surgery and at follow-up, and complications were reviewed for the included studies.

RESULTS

Three cases underwent posterior vertebral column resection (pVCR) of 2-4 segments at the apex of the kyphosis (kyphectomy). Long instrumentation was performed with all pedicle screws constructed from the thoracic spine to the pelvis using iliac screws. According to literature review, a total of 586 children were treated for vertebral kyphosis related to myelomeningocele. At least one vertebra was excised to gain some degree of correction of the deformity. Different types of instrumentation were used over time and none of them demonstrated to be superior over the other.

CONCLUSION

Surgical treatment of progressive kyphosis in myelomeningocele has evolved over the years incorporating all major advances in spinal instrumentation techniques. Certainly, the best results in terms of preservation of correction after surgery and less revision rates were obtained with long construct and screws. However, complication rate remains high with skin problems being the most common complication. The use of low-profile instrumentation remains critical for treatment of these patients.

Kyphectomy and interbody fixation using lag screws in a child with myelomeningocele kyphosis: a technical case report

A 5-year-old boy had a thoracolumbar-level MMC that had been repaired at the day after birth and kyphotic deformity got worse as he grew. He complained of discomfort about not being able to take a supine posture and decided to perform surgery for kyphosis. In our case, surgical correction is offered to stop the deformity progression, manage the associated pain, and finally to gain sitting and supine posture. We report the surgical procedure with 4 levels of en bloc kyphectomy and using the lag screws. Especially when lag screws are used, several complications including posterior instrumentation failure, hardware prominence and wound break down can be solved by removing the implants after bone fusion has been achieved.

Surgical Management of Myelomeningocele-Related Spinal Deformities

OBJECTIVE

To evaluate the optimal timing and type of surgical treatment of myelomeningocele (MMC)-related spinal deformities and long-term follow-up of surgical treatment.

METHODS

We reviewed and presented clinical pictures, treatment strategies and results of 20 patients with MMC-related spinal deformities treated at our center between 2010 and 2017.

RESULTS

The average patient age was 6.3 years. The average preoperative neurologic status according to a modified Japan Orthopedic Association (mJOA) scale was 7.3 points (Benzel's modification). Average functional status was 41 points according to a functional independent measure scale (FIM). The average angle of kyphosis was 83.7°, that of scoliosis was 36.7°, and that of lordosis was 67° (Cobb angles). The average duration of surgery was 234 minutes, and the average total blood loss was 175 mL. The average angle of kyphosis correction was 61°, that of scoliosis correction was 25°, and that of lordosis correction was 25° (Cobb angles). The average duration of hospitalization was 16.6 days, and the average follow-up was 34.5 months. The total number of complications was 13. Reoperation was required in 9 cases. Neurologic status according to the mJOA scale improved by 0.6 point on average. Functional status according to the FIM increased by 6.6 points on average.

CONCLUSIONS

Early surgical correction of MMC-related spinal deformities improves body balance and quality of life. The dual growing rod technique is safe and effective in cases of moderate neuromuscular spinal deformities at an early age. Kyphectomy is a challenging procedure with high complication rates, especially skin problems, but there are no alternative procedures for cases of heavy rigid kyphosis.

KYPHECTOMY IN PATIENTS WITH MYELOMENINGOCELE: SURGICAL RESULTS AND COMPLICATIONS

Objectives:The lumbar kyphosis in patients with myelomeningocele is a complex deformity whose treatment is mainly surgical. The objective of this study is to summarize the results and complications obtained by the group in 2012 with respect to this group of patients.Method:Performed a retrospective analysis of the medical records and radiographs of patients consecutively operated in 2012. The technique was originally described by Dunn-McCarthy and consists of kyphectomy and posterior fixation using S-shaped Luque rods through the foramina of S1 associated with pedicle screws in the thoracic spine.Results:Six patients were included in the study. The age at surgery was 11 years and 7±22 months and the weight was 29.1±11.9 kg. The procedure lasted 271±87 minutes, with the removal of one or two (mean 1.5) vertebrae from the apex of the kyphosis. Hospitalization time was 10±9 days. The lumbar kyphosis measuring 116.3±37 degrees preoperatively was reduced to 62.5±21 degrees. All patients began to sit without support and to lie in the supine position. Four patients developed postoperative infection and required surgical debridement at the follow-up. One patient had the implant removed after a year due to loosening of the rod in the sacrum.Conclusion:The surgical technique allows excellent functional results in the correction of lumbar kyphosis in patients with myelomeningocele despite high complication rates. It is necessary to conduct studies with a larger number of patients and duration of follow-up to assess whether the use of pedicle screws will decrease the rate of loosening and pseudoarthrosis.

Kyphectomy and Pedicular Screw Fixation with Posterior-Only Approach in Pediatric Patients with Myelomeningocele

PURPOSE

Defective posterior spinal arch and paraspinal musculature lead to progressive kyphosis in patients with myelomeningocele. Kyphosis decreases the patients' functional status and quality of life. To correct or prevent further deterioration, different surgical techniques have been introduced. Our aim is to present our clinical experience in kyphectomy and pedicle screw fixation with a posterior-only approach in pediatric patients with myelomeningocele and to discuss the technique with a review of the literature.

MATERIALS AND METHODS

Four patients with lumbar and 2 patients with thoracolumbar kyphosis (female:male ratio = 1:5) secondary to myelomeningocele were operated between January 2009 and October 2012. The median age was 5.5 years (range = 3-10 years). The criteria of the patient selection for the procedure were progression of kyphosis angle, impaired truncal balance and cosmetic deformity. In this retrospective study, we performed chart reviews for demographic and clinical data. We measured the pre- and postoperative kyphosis angles by using the Cobb method on lateral x-rays.

RESULTS

The mean preoperative kyphosis angle was 114.3° (range = 91-136°). The mean operative time was 171.7 min (range = 110-220 min). The mean intraoperative blood loss was 450 cc (range = 300-700 cc). The postoperative mean kyphosis angle was 28.2° (range = 13-33°). Five patients had skin breakdown. After osteofusion was established, those 5 patients' instrumentations were explanted. No acute or immediate postoperative complications occurred. Other complications were pneumonia and urinary tract infection. In the long term, 2 patients died due to pneumonia and slit-ventricle syndrome, respectively.

CONCLUSIONS

Kyphectomy and pedicle screw instrumentation with the posterior-only approach dramatically reduces the kyphosis angle that develops in patients with myelomeningocele. The method itself is less time-consuming and leads to less intraoperative blood loss compared to other methods used for this patient population. Skin breakdown is the most common short-term complication.

Morphometric analysis of lumbar pedicles in patients with spinal dysraphism

BACKGROUND

In patients with open neural tube defects, the incidence of scoliosis and requirement for spinal fusions are increased. Historically, there has been no standardized measurement of vertebral morphometry in these patients. However, anecdotally, patients with open neural tube defects have a more medially oriented lumbar pedicle trajectory than the average population.

METHODS

A single-institution retrospective review of patients with open neural tube defects was conducted. The demographic parameters and functional and anatomical levels of the defects were noted. CT and MRI scans of the lumbar spine were analyzed; the pedicles from L 1 to S 1 were measured for width (W), length (L) and midline angle (α). The measurements were compared bilaterally, at each level, and with data from previously published reports.

RESULTS

16 scans of pediatric patients (mean = 3.0 ・} 4.3; age range = 7 days to 14.4 years; 7 males, 9 females) with a diagnosis of either myelomeningocele or lipomyelomeningocele were assessed. Most defects occurred in the lumbar region, with L 2 and L 5 accounting for 37.5% each. All angles demonstrated a quadratic increase from L 1 to S 1 (means: L 1 = 28.3 ・} 5.24° ; L 2 = 29.1 ・} 6.2°; L 3 = 33.2 ・} 6.0°; L 4 = 36.8 ・} 5.6°; L 5 = 43.8 ・} 5.9°; S 1 = 52.0 ・} 3.6°) and were more medially angulated than those reported previously; no significant difference existed between right and left measurements (W = 0.65 ≤ p ≤ 0.94; L = 0.91 ≤ p ≤ 1; α = 0.24 ≤p ≤0.86).

CONCLUSIONS

Patients with open neural tube defects had more medially angled pedicle trajectories in the lumbar spine when compared to previously reported values.

Kyphectomy for congenital kyphosis due to meningomyelocele: a case treated with a modified approach to skin healing

This study is a case report of a meningomyelocele patient with congenital kyphosis who was treated with kyphectomy and a special approach to soft tissue healing. The objective of this study is to show a step by step approach to surgical treatment and postoperative care of a meningomyelocele patient with congenital kyphosis. In meningomyelocele the incidence of kyphosis is around 12-20%. It may cause recurrent skin ulcerations, impaired sitting balance and respiratory compromise. Kyphectomy has first been described by Sharrard. This surgery is prone to complications including pseudoarthrosis, skin healing problems, recurrence of deformity and deep infections. A 15-year-old male presented with congenital kyphosis due to meningomyelocele. He had back pain, deformity and bedsores at the apex of the deformity. The wound cultures showed Staphylococcus epidermidis colonisation at the apex. He was given appropriate antibiotic prophylaxis. During surgery, the apex of the deformity was exposed through a spindle-shaped incision. After instrumentation and excision of the apex, correction was carried out by cantilever technique. Two screws were inserted to the bodies of L3 and T11. After the operation, the skin was closed in a reverse cross fashion. He was sent to hyperbaric oxygen treatment for prevention of a subsequent skin infection and for rapid healing of skin flaps post operation. The patient's deformity was corrected from a preoperative Cobb angle of 135°-15° postoperative. The skin healed without any problems. Preoperative culture and appropriate antibiotic prophylaxis, spindle-shaped incision, reverse cross-skin closure and postoperative hyperbaric oxygen treatment can be useful adjuncts to treatment in congenital kyphosis patients with myelomeningocele to prevent postoperative wound healing and infection problems. Reduction screws and intracorporeal compression screws help to reduce the amount of screws and aid in corection of the deformity.

Kyphectomy in patients with myelomeningocele treated with pedicle screw-only constructs: case reports and review

OBJECT

Significant lumbar kyphosis is frequently observed in patients with myelomeningocele and has been associated with increasing functional impairment, decreased abdominal volume, respiratory impairment, discomfort, and skin ulcerations overlying the prominent gibbus. Treatment of severe kyphotic deformities can include kyphectomy, with or without ligation of the thecal sac, with posterior spinal fixation. However, most series have reported a high rate of morbidity and complications associated with surgical intervention for correction of kyphosis in patients with myelomeningocele. The authors describe a technique in which pedicle screw (PS)-only constructs are used without transection of the thecal sac to treat severe kyphosis successfully, with minimal morbidity.

METHODS

The authors retrospectively reviewed medical records and radiographic images in 2 patients with myelomeningoceles in whom kyphectomies had been performed at the authors' institution between January 2007 and July 2010. They also reviewed the existing literature for case reports or published series of patients with myelomeningocele treated with kyphectomies, to evaluate the outcomes.

RESULTS

Both patients were male and had thoracic-level myelomeningoceles that had been repaired at birth, with associated paraplegia. Neither patient had any significant scoliotic deformity associated with the kyphosis, and both had fixation from T-9 to the ilium, which was performed using PS constructs, along with L1-2 kyphectomies. The patient in Case 1 was 20 years old and was treated for progressive kyphosis and an ulcerated nonhealing wound over the gibbus. The patient in Case 2 was 10 years old and was treated for progressive pain and functional impairment. The 2 patients had a mean correction of 63%, with a mean correction of kyphotic deformity from 136° to 51°. Neither patient developed any complication in the short term postoperatively, whereas published series have reported high complication rates, including wound infection, poor wound healing, CSF leakage, pseudarthrosis, and shunt malfunction.

CONCLUSIONS

Severe kyphotic deformities in patients with myelomeningocele can be safely treated using PS-only constructs without ligation of the thecal sac. Further evaluation with a larger sample and longer follow-up are needed to detect any associated complications, such as proximal junctional kyphosis. Further evaluation may also validate whether PS-only constructs permit successful outcomes with a shorter construct and fewer instrumented levels.

Posterior kyphectomy for myelomeningocele with anterior placement of fixation: a retrospective review

BACKGROUND

Kyphosis in myelomeningocele is a rare and difficult problem. Many strategies have been used with no single procedure universally agreed on. Techniques involving anterior and posterior fixation may provide better fusion.

QUESTIONS/PURPOSES

We describe a novel procedure for anteroposterior kyphectomy in patients with myelomeningocele. Apical posterior kyphectomy is followed by the insertion of two rods distally into the vertebral bodies and sacrum. Sublaminar wires are placed superiorly and the kyphosis is reduced by sequential tightening. We determined kyphosis correction and intraoperative blood loss for this new procedure.

METHODS

We retrospectively reviewed 22 patients (average age, 7.6 years [range, 2-17 years]) who underwent apical kyphectomy from 1982 to 2008. Charts were examined and radiographs measured preoperatively, immediately postoperatively, and at final followup. Followup averaged 6.4 years (range, 0-14 years) with 19 patients having at least 2 years of followup.

RESULTS

Kyphosis decreased from a mean of 123° (range, 79°-163°) preoperatively to 40° (range, 13°-92°) immediately postoperatively and was a mean of 60° (range, 14°-126°) at final followup. Operating time was 248 minutes (range, 180-345 minutes), estimated blood loss was 765 mL (range, 140-2100 mL), and length of stay was 14 days (range, 1-57 days). Ten of the 22 patients had complications with eight requiring reoperation.

CONCLUSIONS

This anteroposterior kyphectomy provided a high level of kyphosis correction, which was largely maintained over the study period. Blood loss, surgical time, and complication rates were acceptable as compared with other techniques reported in the literature.

Long-term outcome of surgical correction of congenital kyphosis in patients with myelomeningocele (MMC) with segmental spino-pelvic fixation

Study design: A retrospective case series of patients with myelomeningocele (MMC) who underwent kyphectomy and posterior segmental fixation using Luque rods and 16-gauge wires.

Objective: To assess outcomes after posterior kyphectomy and segmental fixation for kyphosis in patients with MMC.

Methods: Thirteen consecutive patients who underwent posterior kyphectomy for transforaminal fixation contiguous to “everted lamina.” Fusion rates, time to fusion, change in Cobb angle, complications, and improvement in activities of daily living using the Katz score were measured.

Results: Average age at time of surgery was 9.2 (range, 4.5–17) years. Average time to follow-up was 120 (range, 20–310) months. Solid fusion was achieved in 9 patients (69%) with a mean time to fusion of 12 months. The mean postoperative kyphotic curve was 22° with an average correction of 90°. Five patients (38%) experienced a postoperative complication. The mean improvement in activities of daily living score was 1.6 points and all patients achieved independent sitting balance.

Conclusion: Segmental spino-pelvic fixation is a solid alternative mode of fixation in patients with MMC with congenital kyphosis. Patient selection, proper perioperative multidisciplinary assessment, and surgeons' expertise are significant in the success of this complex surgery.

Retrospective review of multilevel spinal fusion combined with spinal cord transection for treatment of kyphoscoliosis in pediatric myelomeningocele patients

STUDY DESIGN

Retrospective review of cases at a single institution from 1998 to 2005.

OBJECTIVE

The authors present their surgical experience, complications, and learned insight in 9 myelomeningocele children with kyphoscoliosis treated with combined spinal cord transection and spinal fusion.

SUMMARY OF BACKGROUND DATA

Complication rates in spinal fusion for treatment of kyphoscoliosis in myelomeningocele patients are high. Spinal cord transection in combination with fusion can be an appropriate strategy in selected patients, but changes in cerebrospinal fluid (CSF) dynamics that may accompany ligation of the distal CSF circulation are not well characterized.

METHODS

Demographic, clinical, and radiologic data were examined in 9 children with myelomeningocele level at or above T12 and no residual urologic function treated at our institution with spinal cord detethering and transection, and multilevel spinal fusion. Seven children underwent kyphectomy with posterior fusion only for severe gibbus deformities, while 2 had anterior and posterior fusions for severe kyphoscoliosis.

RESULTS

Follow-up of patients ranged from 4 to 92 months (mean, 37.8 months). Eight children (89%) experienced postoperative complications involving wound infection or skin breakdown. One child presented with a CSF leak. Two children (22%) required revision of their ventriculoperitoneal shunts. The average angle of kyphosis before surgery was 122.3 (range, 48 degrees -180 degrees ), and the average postoperative angle was 38.2 (range, 4 degrees -113 degrees ), with average correction being 81.9 degrees (range, 29 degrees -124). Average correction of scoliosis, if present, was 59.5 degrees (range, 35 degrees -92 degrees ).

CONCLUSION

Combined spinal cord transection and spinal fusion allowed an average correction of kyphosis by 81.9 degrees . The complication rate was 89%, with wound concerns being the most significant. Additionally, 22% of patients required shunt revision within 6 weeks of surgery. We attribute this to alteration of CSF dynamics resulting from loss of CSF absorption and flow-buffering capacity below the level of the spinal cord transection.

The use of physical biomodelling in complex spinal surgery

Prior studies have suggested that biomodels enhance patient education, preoperative planning and intra-operative stereotaxy; however, the usefulness of biomodels compared to regular imaging modalities such as X-ray, CT and MR has not been quantified. Our objective was to quantify the surgeon's perceptions on the usefulness of biomodels compared to standard visualisation modalities for preoperative planning and intra-operative anatomical reference. Physical biomodels were manufactured for a series of 26 consecutive patients with complex spinal pathologies using a stereolithographic technique based on CT data. The biomodels were used preoperatively for surgical planning and customising implants, and intra-operatively for anatomical reference. Following surgery, a detailed biomodel utility survey was completed by the surgeons, and informal telephone interviews were conducted with patients. Using biomodels, 21 deformity and 5 tumour cases were performed. Surgeons stated that the anatomical details were better visible on the biomodel than on other imaging modalities in 65% of cases, and exclusively visible on the biomodel in 11% of cases. Preoperative use of the biomodel led to a different decision regarding the choice of osteosynthetic materials used in 52% of cases, and the implantation site of osteosynthetic material in 74% of cases. Surgeons reported that the use of biomodels reduced operating time by a mean of 8% in tumour patients and 22% in deformity procedures. This study supports biomodelling as a useful, and sometimes essential tool in the armamentarium of imaging techniques used for complex spinal surgery.

Recurrent Subependymoma Treated with Radiosurgery

PURPOSE

Subependymomas are rare, slow-growing intracranial neoplasms of the subependymal matrix. We document a successful case of radiosurgical treatment of a multiply recurrent subependymoma.

MATERIALS AND METHODS

A nineteen-year-old male developed a recurrent fourth ventricular subependymoma after 6 resections, fractionated radiation therapy (50.4 Gy) and chemotherapy. In addition, a lesion consistent with a cavernous malformation (CM) was noted adjacent to the tumor within the previously irradiated region.

RESULTS

Stereotactic radiosurgery was performed covering both the subependymoma and the presumed CM. Fifty-four months after radiosurgery, both lesions had decreased in size and the patient remained neurologically unchanged.

CONCLUSIONS

Subependymoma may be added to the list of primary glial neoplasms that have been successfully managed with stereotactic radiosurgery. Also, we add a case of presumed CM following radiation therapy to the literature.

Neonatal kyphectomy in the patient with myelomeningocele

STUDY DESIGN

A retrospective cohort study was used to investigate a group of neonates with myelomeningocele who had a kyphectomy performed in conjunction with dural sac closure during the first few days of life.

OBJECTIVES

To assess the effectiveness of operative intervention in the neonatal period to correct the kyphotic deformity in the patient with myelomeningocele and to monitor its long-term results.

SUMMARY OF BACKGROUND DATA

Orthopedic management originally focused on the immediate treatment of the kyphotic deformity in the infant with myelomeningocele. However, there has been a movement toward postponing surgical treatment of the kyphos until a later age. This study included the longest follow-up of the largest group of neonates that a single surgeon has managed surgically since the treatment of this condition was originally described.

METHODS

The radiographic and clinical results for all neonates treated with a kyphectomy at the time of myelomeningocele closure between 1980 and 2000 were analyzed.

RESULTS

Neonatal kyphectomy was performed on nine males and two females. The average preoperative kyphotic angle measured 67 degrees. The average initial correction was 77 degrees, and the average loss of correction at follow-up assessment was 55 degrees. There were no serious complications, and wound closure was successful in all patients. One patient required a repeat kyphectomy and posterior spinal fusion at the age of 9 years and 2 months. The average follow-up period was 7 years and 4 months (range 44-174 months).

CONCLUSIONS

Kyphectomy performed at the time of dural sac closure in the neonate is a safe procedure with excellent initial correction. Eventual recurrence is expected despite the procedure. However, it occurs in the form of a longer, more rounded deformity that is less technically demanding.