Abstract
BACKGROUND: Postoperative electroencephalograms (EEGs) are often used to detect seizures after neonatal cardiac surgery. Electroencephalograms can also measure asymmetry, a regional or hemispheric difference in the voltage or frequency that suggests neurologic injury, quantified using the absolute asymmetry spectrogram (AAS). We hypothesized that postoperative asymmetry would be associated with neurologic injury. METHODS: Quantitative EEG monitoring measured the mean AAS from the anterior, posterior, and hemispheric regions at baseline and during postoperative day (POD) 0 to POD 2. Infants were divided into 2 groups: EEG asymmetry, defined as a mean AAS >50% during POD 0, and EEG symmetry, defined as mean AAS ≤50% during POD 0. RESULTS: In the study cohort of 76 neonates, only the anterior AAS increased significantly from baseline during POD 0 (42.8 ± 7.6% vs 34.6 ± 9.4%; P < .01). Fourteen neonates (18.4%) developed EEG asymmetry on POD 0, all from the anterior region. There were no significant differences in demographic characteristics between the 2 study groups. The EEG asymmetry group had a significantly higher rate of seizures (21.4% vs 3.2%; P = .04) and stroke (28.5% vs 3.2%; P = .009), and longer hospital length of stay (median, 36.5 [interquartile range (IQR), 24.3-87.0] days vs 17.0 [IQR, 11.0-31.3] days; P < .01). Multivariate analysis confirmed that asymmetry was associated with a greater incidence of stroke (odds ratio, 9.116; 95% confidence interval, 1.365-60.870; P = .023). CONCLUSIONS: Asymmetry was associated with neurologic injury and increased morbidity. Quantitative EEG monitoring may be an important adjunct during the early postoperative period to identify neonates at risk for neurologic injury and increased morbidity.