부산대학교 도서관

PURPOSE:: Early posttraumatic seizures (EPTS) occur after pediatric traumatic brain injury and have been associated with unfavorable outcomes. We aimed to characterize the relationship among quantitative EEG characteristics of early posttraumatic seizures, cerebral and somatic physiologic measures. METHODS:: Differences in baseline physiologic, neuroimaging, and demographic characteristics between those with and without early posttraumatic seizures were investigated using Mann–Whitney U test or Fisher exact test. Multivariable dynamic structural equations modeling was used to investigate time series associations between ictal quantitative EEG characteristics with intracranial pressure, arterial blood pressure, heart rate (HR), and cerebral regional oximetry. Quantitative EEG characteristics included amplitude, total power, spectral edge frequency, peak value frequency, complexity, and periodicity. RESULTS:: Among 72 children, 146 seizures were identified from 19 patients. Early posttraumatic seizures were associated with younger age (P = 0.0034), increased HR (P = 0.0018), and increased Glasgow Outcome Scale—Extended scores (P = 0.0377). Group dynamic structural equations modeling analysis of the first seizure for patients demonstrated that intracranial pressure is negatively associated with spectral edge frequency (standardized regression coefficient −0.12, 99% credible interval [−0.21 to −0.04]), and HR is positively associated with peak value frequency (standardized regression coefficient 0.16, [0.00–0.31]). Among nine patients with seizures arising over the frontal lobe regions, HR was positively associated with peak value frequency (standardized regression coefficient 0.26 [0.02–0.50]) and complexity (standardized regression coefficient 0.14 [0.03–0.26]). Variation in strength and direction of associations was observed between subjects for relationships that were significant during group analysis. CONCLUSIONS:: Quantitative EEG characteristics of pediatric early posttraumatic seizures are associated with variable changes in cerebral and systemic physiology, with spectral edge frequency negatively associated with intracranial pressure and peak value frequency positively associated with HR.