Traumatic rupture of the neurocentral synchondrosis of the axis in a child

Digital anatomical features of morphological development in C2-C7 neurocentral synchondrosis in children aged 1-6 years: a retrospective study of CT images

BACKGROUND

With the continuous improvement of diagnosis and treatment technology for cervical spine-related diseases in children at home and abroad, the demand for exploring the developmental anatomy and function of children's cervical spine of different ages is increasing. So the aim of this study was to investigate the changes of anatomical indicators in neurocentral synchondrosis (NCS) of C2-C7 with age and the developmental characteristics of different vertebrae in children aged 1-6 years old.

METHOD

A retrospective collection of 160 cases of normal cervical spine CT images of children aged 1-6 years old in provincial tertiary hospitals, according to the age group of 1-year-old into 6 groups. The original data of continuously scanned cervical spine tomography images were imported into Mimics16.0 software, under the two-dimensional image window, selected the measurement tool under the Measurements toolbar to measure and statistically analyzed the anatomical indicators such as cross diameter, sagittal diameter, height, perimeter and area of NCS in the C2-C7 segment of the cervical spine on the coronal plane and cross-section.

RESULTS

There was no significant difference in the anatomical indexes of cervical spine NCS in children compared with the left and right sides of the same vertebrae (P > 0.05). The same cervical spine generally had differences between the age groups of 1-4 years old and 5-6 years old (P < 0.05).The transverse diameter and circumference gradually decreased with age; the sagittal diameter and height showed a slight increase trend; there was a maximum area at 2 years of age. In different cervical vertebrae of the same age group, the NCS values of C3, C4, and C5 varied greatly, which showed that the ossification process of cervical cartilage was faster than that at the upper and lower ends. There were obvious differences between C2 and the rest of the cervical vertebral segments' NCS ossification process. C7 was also very different from the rest of the cervical vertebrae segments, presumably more similar to the thoracic spine.

CONCLUSIONS

The anatomical indexes of C2-C7 NCS in children have obvious developmental regularities at different ages, and there are also regularities between cervical segments.

Posterior fixation for paediatric and adolescent unstable hangman's fracture: evolution to C1 sparing techniques

PURPOSE

The aim was to study surgical outcomes in hangman's fractures in paediatric and adolescent patients and to demonstrate evolution in posterior surgery from C1-C2-C3 fusion to C1 sparing techniques.

METHODS

Patients (aged ≤ 18 years) operated at a tertiary level centre between September 2011 to February 2018 with more than 1 year of follow-up were included. Neurological status, type of fracture, operating time, blood loss, follow-up, and complications were assessed.

RESULTS

Nine patients were included, with mean age mean of 16.45 years, with a mean follow-up of 42.78 months. Six patients having neurological deficit showed improvement. Two patients, one having undergone C1-C3 lateral mass screw rod fixation (LMSF) and other had C2 pedicle screw with C3 LMSF, developed kyphosis for which fixation was further extended caudally. One patient with an old hangman's fracture with reabsorbed axis pedicle underwent C2 body screw along with C3-C4 pedicle screw rod fixation and C2 pedicle reconstruction. All patients showed evidence of postoperative fusion.

CONCLUSION

Hangman's fractures in young patients can be successfully managed via posterior fixation. In our centre, we have evolved in the direction of motion preservation at C1 C2 joint, along with 3 column stable fixation of the C2 pedicle. C2 pedicle reformation has allowed motion preserving surgery in complex fracture types. Extension of construct till C4 in selected cases is important to prevent postoperative kyphosis.

Synchondral Fracture of the Posterior "Hemiarch" of Pediatric Atlas with Cerebrospinal Fluid Fistula following a Penetrating Neck Injury

INTRODUCTION

As such, the incidence of spinal fractures in young children is less than that of adults due to an increased pliability of the immature bones. The presence of unfused synchondroses in these children predisposes them to an infrequent pattern of fractures that traverse through ossification centers. Such synchondral injuries are uncommonly reported in the C1 and C2 vertebrae. Those that have been occasionally described in C1 involved the anterior synchondrosis. Furthermore, penetrating injuries to a pediatric spine are relatively rare.

CASE PRESENTATION

In this context, we present a 4-year-old child in whom a penetrating injury to an immature atlas led to an unusual disjunction of the posterior synchondrosis with fracture displacement of the posterior "hemiarch" of the atlas that plunged into the dura, resulting in a cerebrospinal fluid fistula.

CONCLUSION

We discuss the possible mechanism and considerations in the management of this unique presentation. Such an atypical fracture pattern involving the posterior hemi ring of the pediatric atlas is previously unknown.

Neurophysiological monitoring of displaced odontoid fracture reduction in a 3-year-old male

Introduction

Odontoid fractures in young children are rare. Most authors advocate for closed reduction and external stabilization as first line treatment. Unlike adults, young children are much less amenable to an awake reduction for real-time assessment of neurological function. We used spinal cord monitoring, as used in spine surgery, to assess the function of the spinal cord during the closed reduction in our 31-month-old patient.

Case presentation

A 31-month-old male presented with a displaced odontoid fracture and ASIA C spinal cord injury. Given his age, closed reduction and halo application were completed under general anesthesia guided by neuromonitoring. A less-than-ideal reduction initially was accepted due to a decline in motor-evoked potentials. Subsequently, there was no change in neurological status. The reduction was repeated under anesthesia, with monitoring, a number of times until good correction was achieved. Ultimately, a surgical fusion was required due to ligamentous instability. The child achieved a very good neurological outcome and a stable spine.

Discussion

Neuromonitoring is an important adjunct to closed reductions when complete and reliable neurological assessment is not possible.

Fractures of the Bilateral C2 Neurocentral and Lateral Dental Synchondroses with Kyphotic C1-C2 Subluxation in a 3-Year-Old Girl: A Description of a Rare Fracture Pattern and Its Treatment: A Case Report

CASE

Spinal fractures are rare in young children. Because spinal anatomy and biomechanics differ in children and adults, knowledge of the deviations of the juvenile spine is necessary for adequate treatment. We present the case of a young girl with an unusual C2 fracture that included rupture of both of the neurocentral and lateral dental synchondroses, with an opening of the synchondroses and a caudal dislocation of both vertebral arches following a head-on motor vehicle collision. The whole body and apex of the dens was displaced anteriorly and cranially with a kyphotic angulation of 34°. We describe the treatment and clinical and radiographic outcome after 1 year.

CONCLUSION

Using passive hyperextension and distraction of the head, a closed open-mouth digital reduction was performed under continuous fluoroscopy. At the 1-year follow-up, the patient had full range of motion of the head without pain or neurologic dysfunction.

Successful delayed non-operative management of C2 neurosynchondrosis fractures in a pediatric patient: a case report and review of management strategies and considerations for treatment

Upper cervical synchondrosis fractures are the most common types of cervical fractures in the pediatric population less than 7 years of age (Blauth et al (Eur Spine J 5:63-70, 1996); Connolly et al (Pediatr Radiol 25(Suppl1):S129-133, 1995); Mandabach et al (Pediatr Neurosurg 19(5):225-232, 1993); Schippers et al (Acta Neurochir 138:524-530, 1990)) The vast majority occur through the dentocentral or basilar synchondrosis. We present the second reported case in recent literature of a unilateral neurosynchondrosis fracture. The patient, a 4-year-old male, was initially managed conservatively with a rigid cervical collar for a period of 3 months. Despite multiple counseling sessions with family, the patient remained poorly compliant with cervical immobilization. After 3 months, imaging demonstrated partial fusion with persistent anterolisthesis of C2 on C3. The decision was made to place the child in external halo fixation as an attempt to achieve fusion prior to committing to internal surgical fixation and the associated sequelae. Immobilization with a hard cervical collar is often first line treatment. In the case of failed fusion, debate exists regarding surgical fixation in children. Occipito-atlanto-axial fusion leads to permanent loss of a significant degree of flexion, extension, and rotatory movement. The pediatric population has a strong propensity to fuse; however, compliance is often a barrier to conservative treatment due to age-related behavioral practices. We demonstrate that even with initial failed fusion and progression of deformity while in a cervical collar, conservative management with external halo fixation can potentially obviate the need for internal fixation.