Seref Dogan, Sam Safavi-Abbasi, Nicholas Theodore, Steven W. Chang, Eric M. Horn, Nittin R. Mariwalla, Harold L. Rekate and Volker K. H. Sonntag
The authors evaluated the mechanisms and patterns of thoracic, lumbar, and sacral spinal injuries in a pediatric population as well as factors affecting the management and outcome of these injuries.
The records of 89 patients (46 boys and 43 girls; mean age 13.2 years, range 3–16 years) with thoracic, lumbar, or sacral injuries were reviewed. Motor vehicle accidents were the most common cause of injury. Eighty-two patients (92.1%) were between 10 and 16 years old, and seven (7.9%) were between 3 and 9 years old. Patient injuries included fracture (91%), fracture and dislocation (6.7%), dislocation (1.1%), and ligamentous injury (1.1%). The L2–5 region was the most common injury site (29.8%) and the sacrum the least common injury site (5%). At the time of presentation 85.4% of the patients were neurologically intact, 4.5% had incomplete injuries, and 10.1% had complete injuries. Twenty-six percent of patients underwent surgery for their injuries whereas 76% received nonsurgical treatment. In patients treated surgically, an anterior approach was used in six patients (6.7%), a posterior approach in 16 (18%), and a combined approach in one (1.1%). Postoperatively, six patients (26.1%) with neurological deficits improved, one of whom recovered fully from an initially complete injury.
Thoracic and lumbar spine injuries were most common in children older than 9 years. Multilevel injuries were common and warranted imaging evaluation of the entire spinal column. Most patients were treated conservatively. The prognosis for neurological recovery is related to the initial severity of the neurological injuries. Some pediatric patients with devastating spinal cord injuries can recover substantial neurological function.
Seref Dogan, Sam Safavi-Abbasi, Nicholas Theodore, Eric Horn, Harold L. Rekate and Volker K. H. Sonntag
In this study the authors evaluated the mechanisms and patterns of injury and the factors affecting management and outcome of pediatric subaxial cervical spine injuries (C3–7).
Fifty-one pediatric patients (38 boys and 13 girls; mean age 12.4 years, range 10 months–16 years) with subaxial cervical spine injuries were reviewed retrospectively. Motor vehicle accidents (MVAs) were the most common cause of injury. Overall, 12% presented with a dislocation, 63% with a fracture, 19% with a fracture–dislocation, and 6% with a ligamentous injury. The most frequently injured level was C6–7 (33%); C3–4 (6%) was least frequently involved. Sixty-four percent of patients were neurologically intact, 16% had incomplete spinal cord injuries (SCIs), 14% had complete SCIs, and three patients (6%) died after admission and before assessment. Treatment was conservative in 64%: seven (13%) wore a halo vest and 26 (51%) wore a rigid cervical orthosis. Surgery was performed in the other 18 patients (36%), with the breakdown as follows: 15 (30%) underwent an anterior approach, two (4%) had posterior approaches, and one (2%) had a combined approach. Postoperatively, four patients (8%) who had a neurological deficit improved. The overall mortality rate was 8%; all deaths were related to MVAs. There were no surgery-related deaths or complications.
Subaxial cervical spine injuries are common in children 9 to 16 years of age, and occur principally between C-5 and C-7. Multilevel injury is more common in children 8 years of age and older than in younger children and infants. Most patients with subaxial cervical spine injuries can be treated conservatively. Both anterior and posterior approaches are safe and effective.