Validation and refinement of a clinical decision rule for the use of computed tomography in children with minor head injury in the emergency department

Abstract
BACKGROUND: There is uncertainty about which children with minor head injury need to undergo computed tomography (CT). We sought to prospectively validate the accuracy and potential for refinement of a previously derived decision rule, Canadian Assessment of Tomography for Childhood Head injury (CATCH), to guide CT use in children with minor head injury.

METHODS: This multicentre cohort study in 9 Canadian pediatric emergency departments prospectively enrolled children with blunt head trauma presenting with a Glasgow Coma Scale score of 13–15 and loss of consciousness, amnesia, disorientation, persistent vomiting or irritability. Phys icians completed standardized assessment forms before CT, including clinical predictors of the rule. The primary outcome was neurosurgical intervention and the secondary outcome was brain injury on CT. We calculated test characteristics of the rule and used recursive partitioning to further refine the rule.

RESULTS: Of 4060 enrolled patients, 23 (0.6%) underwent neurosurgical intervention, and 197 (4.9%) had brain injury on CT. The original 7-item rule (CATCH) had sensitivities of 91.3% (95% confidence interval [CI] 72.0%–98.9%) for neurosurgical intervention and 97.5% (95% CI 94.2%–99.2%) for predicting brain injury. Adding “≥ 4 episodes of vomiting” resulted in a refined 8-item rule (CATCH2) with 100% (95% CI 85.2%–100%) sensitivity for neurosurgical intervention and 99.5% (95% CI 97.2%–100%) sensitivity for brain injury.

Lead Researchers

  • Martin Osmond

    Emeritus Senior Scientist, CHEO Research Institute

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Researchers

  1. Martin Osmond

    Emeritus Senior Scientist, CHEO Research Institute

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