C1-C2 fracture-dislocations in children and adolescents

Pediatric Spinal Cord Injury: A Review

A spinal cord injury (SCI) can be a devastating condition in children, with profound implications for their overall health and quality of life. In this review, we aim to provide a concise overview of the key aspects associated with SCIs in the pediatric population. Firstly, we discuss the etiology and epidemiology of SCIs in children, highlighting the diverse range of causes. We explore the unique anatomical and physiological characteristics of the developing spinal cord that contribute to the specific challenges faced by pediatric patients. Next, we delve into the clinical presentation and diagnostic methods, emphasizing the importance of prompt and accurate diagnosis to facilitate appropriate interventions. Furthermore, we approach the multidisciplinary management of pediatric SCIs, encompassing acute medical care, surgical interventions, and ongoing supportive therapies. Finally, we explore emerging research as well as innovative therapies in the field, and we emphasize the need for continued advancements in understanding and treating SCIs in children to improve their functional independence and overall quality of life.

External fixation and surgical fusion for pediatric cervical spine injuries: Short-term outcomes

OBJECTIVE

To compare in-hospital complication rates in pediatric patients with atlantoaxial and subaxial injuries undergoing either external fixation or surgical fusion.

PATIENTS AND METHODS

Baseline and outcome data were obtained from the 2002-2011 Nationwide Inpatient Sample (NIS) for patients under the age of 18 with a diagnosis of cervical spine fracture without spinal cord injury or cervical spine subluxation. Patients who underwent external immobilization or internal fixation were included for analysis. Variables analyzed included length of stay, in-hospital mortality, discharge disposition, total hospital charges, and development of at least one in-hospital complication.

RESULTS

A total of 2878 pediatric patients with cervical spine injury were identified; 1462 patients (50.8%) with atlantoaxial (C1-2) injury and 1416 (49.2%) with subaxial (C3-7) injury. Among atlantoaxial injury patients, external fixation was associated with lower total charges ($73,786 vs. $98,158, p = .040) and a lower likelihood of developing at least one complication (1.9% vs. 6.8%, p = .029) compared to surgical fusion, and was a more common treatment for subluxation alone (16.4% vs. 2.6%, p < .001). Among subaxial injury patients, there were no significant differences in age (p = .262), length of stay (p = .196), occurrence of at least one complication (p = .334), or total charges (p = .142). Subaxial subluxation injuries alone were treated more often with surgical fusion (2.2% vs. 1.2%, p < .001).

CONCLUSION

Optimal treatment of patients with cervical injury may vary by location of injury. Our findings warrant further investigation into the difference in clinical outcomes between surgical and non-surgical management of atlantoaxial and subaxial injury.

Craniovertebral junction injuries in children. A Review

The craniovertebral junction (CVJ) is the most complex and dynamic region of the cervical spine. The wide range of movements possible at this region makes it vulnerable to injury and instability. The special anatomical features make children more prone to injuries of CVJ than adults where lower cervical spine is involved more frequently. The classical clinical manifestation in CVJ injury patients are pyramidal signs including weakness and spasticity, stigmata of CVJ anomalies (short neck, low hair line, facial or hand asymmetry, high arched palate, ), torticolis and neck movement restriction. The history of transient loss of consciousness or sudden neurological deterioration following minor trauma may be elicited. Most authors advocate conservative management (in form of immobilization) of CVJ injuries in children as is true in adults. Halo vest provides superior immobilization in upper cervical and CVJ injuries and can be used in a child as young as 1 year of age with minimal difficulty. Early surgical intervention, i.e. within 2 weeks of injury include is indicated in injuries that cannot be reduced and stabilized by external means, partial spinal cord injury with progressive neurological deficit and in children with extradural hematoma.

Fractures of the axis: a review of pediatric, adult, and geriatric injuries

Fractures of the second cervical vertebra (C2, axis) are common in adult spine surgery. Those fractures occurring in younger adult patients are often associated with high-energy mechanism trauma, resulting in a "Hangman's Fracture." Management of these fractures is often successful with nonoperative means, though surgery may be needed in those fractures with greater displacement and injury to the C2-C3 disc. Older patients are more likely to sustain fractures of the odontoid process. The evidence supporting surgical management of these fractures is evolving, as there may be a mortality benefit to surgery. Regardless of treatment, longer-term mortality rates are high in this patient population, which should be discussed with the patient and family at the time of injury. Pediatric patients may suffer fractures of the axis, though differentiation of normal and pathologic findings is necessary and more difficult with the skeletally immature spine.

Unilateral atlanto-axial fractures in near side impact collisions: An under recognized entity in cervical trauma

Objective:

Nearside impact collisions presenting with lateral mass fractures of atlanto-axial vertebrae contralateral to the impact site represents a rare fracture pattern that does not correlate with previously described injury mechanism. We describe our clinical experience with such fractures and propose a novel description of biomechanical forces involved in this unique injury pattern. The findings serve to alert clinicians to potentially serious consequences of associated unrecognized and untreated vertebral artery injury.

Material and Methods:

In addition to describing our clinical experience with three of these fractures, a review of Crash Injury Research and Engineering Network (CIREN) database was conducted to further characterize such fractures. A descriptive analysis of three recent lateral mass fractures of the atlanto-axial segment is coupled with a review of the CIREN database. A total of 4047 collisions were screened for unilateral fractures of atlas or axis. Information was screened for side of impact and data regarding impact velocity, occupant injuries and use of restraints.

Results:

Following screening of unilateral fractures of atlas and axis for direct side impacts, 41 fractures were identified. Cross referencing these cases for occurrence contralateral to side of impact identified four such fractures. Including our recent clinical experience, seven injuries were identified: Five C1 and two C2 fractures. Velocity ranged from 14 to 43 km/h. Two associated vertebral artery injuries were identified.

Conclusions:

Complexity of the atlanto-axial complex is responsible for a sequence of events that define load application in side impacts. This study demonstrates the vulnerability of vertebral artery to injury under unique translational forces and supports the use or routine screening for vascular injury. Diminished sensitivity of plain radiography in identifying these injuries suggests that computerized tomography should be used in all patients wherein a similar pattern of injury is suspected.

Pediatric craniovertebral junction trauma

The craniovertebral junction consists of the occiput, atlas, and axis, along with their strong ligamentous attachments. Because of its unique anatomical considerations, trauma to the craniovertebral junction requires specialized care. Children with potential injuries to the craniovertebral junction and cervical spinal cord demand specific considerations compared to adult patients. Prehospital immobilization techniques, diagnostic studies, and spinal injury patterns among young children can be different from those in adults. This review highlights the unique aspects in diagnosis and management of children with real or potential craniovertebral junction injuries.

Injuries of the Upper Cervical Spinal Column are Markers of Severe Forces in the First Two Years of Life

Cervical spinal column injuries occur uncommonly in infants and young toddlers, and rarely in the upper cervical spine. Any injury, when discovered at forensic autopsy, must be interpreted within the context of a complete case investigation, and available science. When severe upper cervical spinal column injury is detected, such as atlanto-occipital dislocation (AOD), atlanto-axial dislocation (AAD) or spinal cord transection, forensic pathologists commonly regard such trauma as a marker of significant forces. This retrospective study evaluated 60 cases of accidental and homicidal deaths occurring in the first 24 months of life and investigated by a large metropolitan medical examiner jurisdiction. All cases with AOD, AAD or spinal cord transection occurred under documented accidental circumstances, and all of those cases involved severe forces, including being struck by or run over by a car. While such high cervical spinal column pathology is not unusual when an infant or young toddler is struck by or run over by a motor vehicle, or other accidental circumstance involving severe forces, this discovery in a case of apparent natural death or death following alleged short fall or other commonplace activity of daily living should be considered highly suspect.

Traumatic Type III odontoid fracture and severe rotatory atlantoaxial subluxation in a 3-year-old child: case report

In this report, the authors describe the case of a 3-year-old child with a traumatic Type III odontoid fracture. To their knowledge, this is the first reported case of a true Type III odontoid fracture with atlantoaxial rotatory subluxation in a child. The patient presented with pain and had resisted manipulation of the neck following a motor vehicle crash. Plain cervical radiographs revealed an odontoid fracture, which was confirmed by CT imaging. The left lateral mass of C-1 was rotated anterior to that of C-2 with the displaced odontoid process acting as the pivot point of rotation. The C1-2 alignment was normalized, and the C-2 fracture was reduced completely. The regional anatomy and mechanism of injury, radiographic diagnosis, and management of cervical spine injuries in children are discussed.

Fractures of the odontoid in children with an open basilar synchondrosis

Fractures of the odontoid in children with an open basilar synchondrosis differ from those which occur in older children and adults. We have reviewed the morphology of these fractures and present a classification system for them.

There were four distinct patterns of fracture (types IA to IC and type II) which were distinguished by the site of the fracture, the degree of displacement and the presence or absence of atlantoaxial dislocation. Children with a closed synchondrosis were classified using the system devised by Anderson and D’Alonzo. Those with an open synchondrosis had a comparatively lower incidence of traumatic brain injury, a higher rate of missed diagnosis and a shorter mean stay in hospital. Certain subtypes (type IA and type II) are likely to be missed on plain radiographs and therefore more advanced imaging is recommended. We suggest staged treatment with initial stabilisation in a Halo body jacket and early fusion for those with unstable injuries, severe displacement or neurological involvement.

Delayed presentation and conservative management of an odontoid basilar synchondrosis fracture in a child. Case report

The authors report the case of a 3-year-old boy who presented with neck pain after falling from a low height and who was discharged from the emergency department after imaging studies were noted to be normal. He presented again 2 months later with continued neck pain, and repeated imaging demonstrated a fracture of the odontoid basilar synchondrosis that had not been shown on the initial studies. Based on the normal alignment of his spine and evidence of early bone fusion at the time of his second presentation, he underwent cervical orthosis therapy only. To the authors' knowledge, this is the first reported case of an odontoid synchondrosis fracture in which computed tomography scans were normal at presentation.

Cervical spine injuries in pediatric patients

BACKGROUND

Cervical spine injuries are uncommon in pediatric trauma patients. Previous studies were often limited by the small numbers of patients available for evaluation. The aim of this study was to determine the incidence and characteristics of pediatric cervical spine injuries at this Level 1 trauma center and to review the authors' experiences with documented cases.

METHODS

This study retrospectively analyzed the clinical records of all pediatric trauma patients with skeletal and/or nonskeletal injuries of the spine that were admitted to this Level 1 trauma center between 1980 and 2004. Those with significant injuries of the cervical spine were identified and included in this study. Pediatric patients were defined as patients younger than the age of 17 years. In addition, they were stratified by age into two study groups: group A included patients aged 8 years or fewer and group B contained patients from the ages of 9 to 16 years.

RESULTS

We found 56 pediatric patients with injuries of the cervical spine that met criteria for inclusion. Thirty-one female and 25 male patients with an average age of 8.9 years (range, 1-16 years) sustained significant skeletal and/or nonskeletal injuries of the cervical spine and were entered in this study. Thirty patients (54%) were aged 8 years or fewer and entered into study group A, whereas 26 patients (46%) from the ages of 9 to 16 met criteria for inclusion in study group B. An analysis of data revealed that younger patients (group A) showed significantly more injuries of the upper cervical spine, whereas older children (group B) sustained significantly more injuries of the lower level. Spinal cord injuries without radiographic findings were only found in study group A. In addition, younger children were more likely injured by motor vehicle crashes, whereas older children more commonly sustained C-spine injuries during sports activities. Two-thirds of our patients showed neurologic deficits, and the overall mortality was 28%.

CONCLUSION

The results of our study were similar to several previous reports, underscoring a low incidence (1.2%) and age-related characteristics. Younger children had a predilection for injuries of the upper cervical spine, whereas children in the older age group sustained significantly more injuries of the lower cervical spine. Spinal cord injuries without radiographic abnormalities were only seen in the younger age group. Despite the low incidence of cervical spine injuries in pediatric patients, increased efforts at prevention are demanded because mortality rate (27%) and incidence of neurologic deficits (66%) were dreadfully high in our series.

Acute atlanto-axial post-operative subluxation following posterior C1/2 fusion

Two cases referred with acute post-operative C1/2 subluxation following posterior fusion are reported. Both cases had initial treatment for atlanto-axial instability with posterior cable (Brooks and interspinous) and graft techniques, and placed immediately in a Philadelphia collar. One case was found to have subluxed immediately post-operatively when failing to breathe following reversal of anaesthetic agents, and despite immediate realignment and reoperation was left with a significant quadriparesis. The other patient was noted to have subluxed on routine X-ray on day 4, and had no neurological deficit before or after reoperation. Risk factors for this dangerous complication are discussed and the techniques of C1/2 posterior fusion and stabilization are reviewed in detail. Surgeons performing atlanto-axial stabilization procedures should be familiar with and have expertize in the complete range of techniques described and choose the one most appropriate for the patient's individual requirements.

The usefulness of a modified adult protocol for the clearance of paediatric cervical spine injury in the emergency department

OBJECTIVE

To determine if the use of a modified adult protocol that uses cervical spine imaging on presentation for the assessment of cervical spine injury in children improves clinical outcome.

METHODS

This is a case series study on all consecutive trauma patients presenting from April to July 2000 inclusive to the ED of a major paediatric trauma hospital. Children presenting to the ED with potential cervical spine injury (CSI) were identified using standard selection criteria. Patient demographics, mechanism of injury, method and time of presentation, associated injuries, radiological investigation and clinical outcome were recorded. The major outcome measures for this study were: time to clearance of the cervical spine, length of stay in the ED and admission to an in-hospital bed. Data were analysed for compliance to the protocol, this being the standard assessment pathway of cervical spine clearance used by our trauma service.

RESULTS

The trauma registry identified 1721 trauma presentations during the 4-month study period; 208 presentations representing 200 children with potential CSI were entered into the study. Males represented 72.5% of the study population, having a mean age of 8.32 years, although 29% were less than 5 years of age. The majority of presentations (69%) occurred outside of normal working hours. In 17.8% of cases the cervical spine was cleared based on clinical assessment alone, half less than 5 years of age. Compliance to the protocol occurred in 78% of presentations. However, when examined by age group, children 5 years of age or above were 1.5 times more likely to comply with the protocol as compared with younger children. Adequate plain imaging was not obtained in 18% of presentations, this group almost exclusively less than 5 years of age. There were no missed injuries and no short or long-term neurological sequelae reported during this study. There were no differences in time to clearance, length of stay and admission rate between compliant and non-compliant groups.

CONCLUSIONS

Modified adult protocols for cervical spine clearance offer guidance in managing the majority of children suffering blunt trauma. However, we recommend caution in rigidly applying such protocols, especially to children of young age.

Management of pediatric cervical spine and spinal cord injuries

DIAGNOSTIC

STANDARDS

There is insufficient evidence to support diagnostic standards.

GUIDELINES

In children who have experienced trauma and are alert, conversant, have no neurological deficit, no midline cervical tenderness, and no painful distracting injury, and are not intoxicated, cervical spine x-rays are not necessary to exclude cervical spine injury and are not recommended. In children who have experienced trauma and who are either not alert, nonconversant, or have neurological deficit, midline cervical tenderness, or painful distracting injury, or are intoxicated, it is recommended that anteroposterior and lateral cervical spine x-rays be obtained.

OPTIONS

In children younger than age 9 years who have experienced trauma, and who are nonconversant or have an altered mental status, a neurological deficit, neck pain, or a painful distracting injury, are intoxicated, or have unexplained hypotension, it is recommended that anteroposterior and lateral cervical spine x-rays be obtained. In children age 9 years or older who have experienced trauma, and who are nonconversant or have an altered mental status, a neurological deficit, neck pain, or a painful distracting injury, are intoxicated, or have unexplained hypotension, it is recommended that anteroposterior, lateral, and open-mouth cervical spine x-rays be obtained. Computed tomographic scanning with attention to the suspected level of neurological injury to exclude occult fractures or to evaluate regions not seen adequately on plain x-rays is recommended. Flexion/extension cervical x-rays or fluoroscopy may be considered to exclude gross ligamentous instability when there remains a suspicion of cervical spine instability after static x-rays are obtained. Magnetic resonance imaging of the cervical spine may be considered to exclude cord or nerve root compression, evaluate ligamentous integrity, or provide information regarding neurological prognosis.

TREATMENT

STANDARDS

There is insufficient evidence to support treatment standards.

GUIDELINES

There is insufficient evidence to support treatment guidelines.

OPTIONS

Thoracic elevation or an occipital recess to prevent flexion of the head and neck when restrained supine on an otherwise flat backboard may allow for better neutral alignment and immobilization of the cervical spine in children younger than 8 years because of the relatively large head in these younger children and is recommended. Closed reduction and halo immobilization for injuries of the C2 synchondrosis between the body and odontoid is recommended in children younger than 7 years. Consideration of primary operative therapy is recommended for isolated ligamentous injuries of the cervical spine with associated deformity.

Cervical spine trauma in the injured child: a tragic injury with potential for salvageable functional outcome,

BACKGROUND/PURPOSE

Cervical spine injuries are uncommon in children, and, therefore, presumptive immobilization and diagnosis remain controversial. The purpose of this study was to review the author's experience with cervical spine injuries in children to determine the incidence, injury mechanism, pattern of injury, and subsequent functional outcome.

METHODS

Fifty-two children over a 6-year period (1994 to 1999) with a cervical spine injury secondary to blunt trauma were identified (1.3% incidence). The functional independent measure (FIM) was assessed at the time of discharge in each of 3 categories: communication, feeding, and locomotion.

RESULTS

Mean age of the study children was 10.7 +/- 0.7 years. Eight children (15%) were less than 5 years old, and 4 (8%) were less than 2 years old. The mechanism of injury included motor vehicle crash (52%), falls (15%), bicycle accidents (11%), sports-related injuries (10%), pedestrian accidents (8%), and motorcycle crashes (4%). Seven patients died yielding an overall mortality rate of 13%. Injuries were distributed along the cervical spinal cord as follows: 5 atlanto-occipital dislocations, 28 C1 to C3 injuries, 17 C4 to C7 injuries, and 2 ligamentous injuries. FIM scores were recorded for 18 patients. Seventeen communicated independently, 14 fed themselves independently, and 12 had independent locomotive function.

CONCLUSIONS

Cervical spine injuries occur in children across a spectrum of ages. Although atlanto-occipital dislocation is a highly lethal event, children with C1 to C7 injuries have a high likelihood of reasonable independent functioning.