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Gregory C. Wiggins, Christopher I. Shaffrey, Mark F. Abel, and Arnold H. Menezes

Pediatric spinal deformity results from multiple conditions including congenital anomalies, neuromuscular disorders, skeletal dysplasia, and developmental disorders (idiopathic). Pediatric spinal deformities can be progressive and cause pulmonary compromise, neurological deficits, and cardiovascular compromise. The classification and treatment of these disorders have evolved since surgical treatment was popularized when Harrington distraction instrumentation was introduced.

The advent of anterior-spine instrumentation systems has challenged the concepts of length of fusion needed to arrest curvature progression. Segmental fixation revolutionized the surgical treatment of these deformities. More recently, pedicle screw–augmented segmental fixation has been introduced and promises once again to shift the standard of surgical therapy. Recent advances in thoracoscopic surgery have made this technique applicable to scoliosis surgery.

Not only has surgical treatment progressed but also the classification of different forms of pediatric deformity continues to evolve. Recently, Lenke and associates proposed a new classification for adolescent idiopathic scoliosis. This classification attempts to address some of the shortcomings of the King classification system.

In this article the authors review the literature on pediatric spinal deformities and highlight recent insights into classification, treatment, and surgery-related complications.

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Ali A. Baaj, Douglas Brockmeyer, Andrew Jea, and Amer F. Samdani

, and Ohrt-Nissen et al. present their technique for optimizing thoracic kyphosis. Intraoperative neuromonitoring (IONM), with somatosensory evoked potentials and transcranial motor evoked potentials, is now routinely utilized in the correction of pediatric spinal deformity, and Zucarro et al. provide a summary of the experience at a single center. Appropriate response to IONM changes can prevent the vast majority of permanent postoperative neurologic sequelae. Unlike AIS, neuromuscular scoliosis carries a significant complication rate, and Cognetti et al. report on

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Joseph Ferguson, Steven W. Hwang, Zachary Tataryn, and Amer F. Samdani

exceptionally high sensitivity and specificity for communicating intraoperative changes in the spinal cord. 4 , 5 , 9 , 11 , 15 Despite the increased use of IONM throughout the field of spinal surgery, there is a paucity of literature related to its use in pediatrics as compared with the spinal surgery in adults. 4 , 5 , 15 We present the experience of a single institution with IONM and pediatric spinal deformity surgery and one of the largest reported series of IONM changes to date. Methods After obtaining IRB approval, a retrospective review was performed on

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Zach Pennington, Ethan Cottrill, Daniel Lubelski, Jeff Ehresman, Kurt Lehner, Mari L. Groves, Paul Sponseller, and Daniel M. Sciubba

. Enhanced recovery after surgery (ERAS) pathways are now being applied to both adult 9 , 10 and pediatric spine surgery populations. 11–17 Despite the growing body of evidence, no quantitative review exists summarizing the existing literature on outcomes of pediatric spinal deformity ERAS protocols. To address this, we report a systematic review of the literature on ERAS for pediatric scoliosis to 1) identify the components of previously described pediatric spine ERAS protocols; 2) determine whether ERAS protocols reduce LOS, complication rates, and costs in pediatric

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Douglas L. Brockmeyer

I n this issue of the Journal of Neurosurgery: Pediatrics , Bixby et al. 1 provide a glimpse into the possible future of complex pediatric spinal deformity surgery: use of a team-based, two-specialty approach dedicated to tackling the formidable challenges associated with congenital hemivertebra-driven scoliosis. In this schema, pediatric orthopedic spine surgeons and pediatric neurosurgeons work together across the operating table to provide safety, value, and improved outcomes for patients with complex spinal deformity. Theoretically, this approach

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Kristopher G. Hooten, Seth F. Oliveria, Shawn D. Larson, and David W. Pincus

Ogilvie's syndrome is a rare and potentially fatal disease that can easily be mistaken for postoperative ileus. Also known as acute colonic pseudo-obstruction, early recognition and diagnosis of the syndrome allows for treatment prior to bowel perforation and requisite abdominal surgery. The authors report a case of Ogilvie's syndrome following spinal deformity correction and tethered cord release in an adolescent who presented with acute abdominal distension, nausea, and vomiting on postoperative Day 0. The patient was initially diagnosed with adynamic ileus and treated conservatively with bowel rest, reduction in narcotic dosage, and a regimen of stool softeners, laxatives, and enemas. Despite this treatment, her clinical course failed to improve, and she demonstrated significant colonic distension radiographically. Intravenous neostigmine was administered as a bolus with a rapid and dramatic response. This case is the first reported instance of neostigmine use for Ogilvie's syndrome treatment following a pediatric neurosurgical operation.

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Justin S. Smith, Christopher I. Shaffrey, Michael Wang, Mohamad Bydon, and Lawrence Lenke

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Justin Kunes, George H. Thompson, Sunil Manjila, Connie Poe-Kochert, and Alan R. Cohen

in cases of IIH has sometimes been reported at 2 or 3 times that number. 38 Permanent severe visual disturbance occurs in cases of undiagnosed IIH in up to 24% of cases that have been monitored for 5–41 years. 43 We present 3 cases of IIH in a previously unreported setting of pediatric spinal deformity correction surgery ( Table 1 ). The aim of the current report is to alert neurological and orthopedic surgeons that visual disturbances and headaches in the early postoperative period can represent a serious, but treatable, condition. In addition, we propose a

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Maria Zuccaro, James Zuccaro, Amer F. Samdani, Joshua M. Pahys, and Steven W. Hwang

surgical team at the time of TceMEP loss. The results of this study indicate that TceMEP monitoring had a sensitivity of 100% and a specificity ranging from 93% to 100% in detecting spinal cord injury. We also demonstrated that TceMEPs were more sensitive than SSEPs (13.21% sensitivity) in detecting spinal cord injury. Therefore, our findings suggest that TceMEP monitoring during pediatric spinal deformity surgery can significantly reduce the risk of postoperative deficits. Furthermore, TceMEPs are often used for high-risk spinal deformity surgery, and this is consistent

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Richard Menger, Paul J. Park, Elise C. Bixby, Gerard Marciano, Meghan Cerpa, David Roye, Benjamin D. Roye, Michael Vitale, and Lawrence Lenke


Significant investigation in the adult population has generated a body of research regarding proximal junctional kyphosis (PJK) and proximal junctional failure (PJF) following long fusions to the sacrum and pelvis. However, much less is known regarding early complications, including PJK and PJF, in the ambulatory pediatric patient. As such, the objective of this study was to address the minimal literature on early complications after ambulatory pediatric patients underwent fusion to the sacrum with instrumentation to the pelvis in the era of sacral-alar-iliac (S2AI) instrumentation.


The authors performed a retrospective review of pediatric patients with nonidiopathic spinal deformity < 18 years of age with ambulatory capacity who underwent fusion to the pelvis at a multisurgeon pediatric academic spine practice from 2016 to 2018. All surgeries were posterior-only approaches with S2AI screws as the primary technique for sacropelvic fixation. Descriptive, outcome, and radiographic data were obtained. The definition of PJF included symptomatic PJK presenting as fracture, screw pullout, or disruption of the posterior osseoligamentous complex.


Twenty-five patients were included in this study. Nine patients (36.0%) had 15 complications for an overall complication rate of 60.0%. Unplanned return to the operating room occurred 8 times in 6 patients (24.0%). Four patients (16.0%) had wound issues (3 with deep wound infection and 1 with wound breakdown) requiring reoperation. Three patients (12.0%) had PJF, all requiring reoperation. A 16-year-old female patient with syndromic scoliosis underwent extension of fusion due to posterior tension band failure at 6 months. A 17-year-old male patient with neuromuscular scoliosis underwent extension of fusion due to proximal screw pullout at 5 months. A 10-year-old female patient with congenital scoliosis underwent extension for PJF at 5 months following posterior tension band failure. One patient had pseudarthrosis requiring reoperation 20 months postoperatively.


Fixation to the pelvis enables significant deformity correction, but with rather high rates of complications and unexpected returns to the operating room. Considerations of sagittal plane dynamics for PJK and PJF should be strongly analyzed when performing fixation to the pelvis in ambulatory pediatric patients.