Study objective We aimed to determine the association between scalp hematoma characteristics and traumatic brain injuries in young children with blunt head trauma who have no other symptoms or signs ...suggestive of traumatic brain injuries (defined as “isolated scalp hematomas”). Methods This was a secondary analysis of children younger than 24 months with minor blunt head trauma from a prospective cohort study in 25 Pediatric Emergency Care Applied Research Network emergency departments. Treating clinicians completed a structured data form. For children with isolated scalp hematomas, we determined the prevalence of and association between scalp hematoma characteristics and (1) clinically important traumatic brain injury (death, neurosurgery for traumatic brain injury, intubation >24 hours for traumatic brain injury, or positive computed tomography (CT) scan in association with hospitalization ≥2 nights for traumatic brain injury); and (2) traumatic brain injury on CT. Results Of 10,659 patients younger than 24 months were enrolled, 2,998 of 10,463 (28.7%) with complete data had isolated scalp hematomas. Clinically important traumatic brain injuries occurred in 12 patients (0.4%; 95% confidence interval CI 0.2% to 0.7%); none underwent neurosurgery (95% CI 0% to 0.1%). Of 570 patients (19.0%) for whom CTs were obtained, 50 (8.8%; 95% CI 6.6% to 11.4%) had traumatic brain injuries on CT. Younger age, non-frontal scalp hematoma location, increased scalp hematoma size, and severe injury mechanism were independently associated with traumatic brain injury on CT. Conclusion In patients younger than 24 months with isolated scalp hematomas, a minority received CTs. Despite the occasional presence of traumatic brain injuries on CT, the prevalence of clinically important traumatic brain injuries was very low, with no patient requiring neurosurgery. Clinicians should use patient age, scalp hematoma location and size, and injury mechanism to help determine which otherwise asymptomatic children should undergo neuroimaging after minor head trauma.
Objective To determine the optimal imaging strategy for young children with minor head injury considering health-related quality of life and radiation risk. In children with minor head trauma, the ...risk of missing a clinically important traumatic brain injury (ciTBI) must be weighed against the risk of radiation-induced malignancy from computed tomography (CT) to assess impact on public health. Study design We included children <2 years old with minor blunt head trauma defined by a Glasgow Coma Scale score of 14-15. We used decision analysis to model a CT-all versus no-CT strategy and assigned values to clinical outcomes based on a validated health-related quality of life scale: (1) baseline health; (2) non-ciTBI; (3) ciTBI without neurosurgery, death, or intubation; and (4) ciTBI with neurosurgery, death, or intubation >24 hours with probabilities from a prospective study of 10 000 children. Sensitivity analysis determined the optimal management strategy over a range of ciTBI risk. Results The no-CT strategy resulted in less risk with the expected probability of a ciTBI of 0.9%. Sensitivity analysis for the probability of ciTBI identified 4.8% as the threshold above which CT all becomes the preferred strategy and shows that the threshold decreases with less radiation. The CT all strategy represents the preferred approach for children identified as high-risk. Conclusion Among children <2 years old with minor head trauma, the no-CT strategy is preferable for those at low risk, reserving CT for children at higher risk.
Study objective Previous studies have suggested that children with isolated skull fractures are at low risk of requiring neurosurgical intervention, suggesting that admission to the hospital may not ...be necessary in many instances. We seek to evaluate current practice for children presenting to the emergency department (ED) for isolated skull fractures in US children's hospitals. Methods We conducted a retrospective multicenter cross-sectional study of children younger 19 years with a diagnosis of isolated skull fracture who were evaluated in the ED from 2005 to 2011, using the Pediatric Health Information System database. The primary outcome measure was the rate of hospital admission. Secondary outcomes were any neurosurgical procedure during hospitalization, repeated neuroimaging, duration of hospitalization, and cost of care. Results We identified 3,915 patients with isolated skull fractures, of whom 60% were male patients; 78% were hospitalized. Of hospitalized children, 85% were discharged within 1 day and 95% were discharged within 2 days. During hospitalization, 47 patients received repeated computed tomography imaging and 1 child required a neurosurgical procedure. Hospital costs were more than triple for hospitalized patients compared with patients discharged from the ED ($2,064 versus $619). Conclusion Most children treated in EDs of US children's hospitals with isolated skull fractures are hospitalized. The rate of neurosurgical intervention is very low. A better understanding of current practice is necessary to assess whether these admissions are warranted or not.
