Spine Trauma

Background

• The majority (80%) of pediatric spine trauma occurs in the cervical spine and annual incidence is 1% to 2%. Pediatric spine trauma is most commonly secondary to motor vehicle accidents (52%), sports injury (27%), falls (15%), and nonaccidental trauma (3%). Spinal trauma from nonaccidental injury is more common in children younger than 2 years of age, while sports-related injuries are more common in older children and adolescents.

• The overall mortality of pediatric cervical spine injuries is 16% to 18%, with higher mortality associated with upper cervical spine injuries (particularly atlanto-occipital dislocation), younger age, and associated head injury.

• The pediatric age and associated spine maturity impacts the susceptibility to injury. The pediatric spine reaches a more adult configuration at ∼8 years of age. In children younger than 8 years of age, the majority of injuries occur at C1–C3, while injuries are more common from C5 and below in children older than 8 years of age.

• Compared to adults, younger children have greater ligamentous laxity, greater head:torso ratio, weaker neck muscles, shallow occipital condyles, developing ossification centers, horizontal facets (upper cervical facet angulation of 30 degrees vs 60–70 degrees in adults; lower cervical spine angulation of 55 degrees vs 70 degrees in adults), absent uncinate processes in children under 10 years old allowing for greater rotational movement, and underdeveloped spinous processes allowing for greater flexion and extension.

Imaging

• The primary modalities for evaluating cervical spine trauma are radiography, CT, and MRI. Often, all these modalities are used in various combinations for accurately diagnosing spinal trauma.

• The National Emergency X-Radiography Utilization Study (NEXUS) trial established five high-risk criteria for cervical spine injury in children under 18 years of age: (1) midline cervical tenderness, (2) evidence of intoxication, (3) altered level of alertness, (4) focal neurologic deficit, and (5) painful distracting injury. The presence of any one of the five criteria placed a patient into the high-risk group; the absence of all criteria defined a patient as low risk. Among the low-risk group, no patient suffered a cervical spine injury, indicating that no imaging was necessary in this group. The high-risk group should first undergo AP and lateral spine radiographs. If a child has worsening symptoms and deficits despite negative radiographs, CT or MRI is recommended. However, many institutions bypass radiographs for children with major trauma or neurologic deficits or those who are unconscious.

• Because there is a greater prevalence of ligamentous injury in children relative to adults, it is important for the radiologist to be knowledgeable of normative values for measurements that can indicate a ligamentous injury and require MRI for direct assessment of the ligaments. It is also important for radiologists to be familiar with the ossification centers and normal physiologic variants in the cervical spine that may be encountered.

• MRI is the most sensitive technique for identification of spine injury, particularly the spinal ligaments, spinal cord, and soft tissue of the spinal canal. Up to 24% of children with radiographically occult injury had injuries visible on MRI.

• This section will illustrate the imaging appearance of spinal trauma, with particular emphasis on CT and MRI findings that indicate spinal trauma, as well imaging of uncommon spinal trauma and normal anatomic variants.

Key Points

Key Points

Key Points