Background: Electrographic characteristics (extreme delta brush, posterior dominant rhythm and slow waves) may predict outcomes in anti-NMDA receptor encephalitis (NMDARE). However, whether changes in EEG sleep architecture predict outcomes are unknown. We examine electrophysiological characteristics including sleep architecture in a pediatric NMDARE population and correlate with outcomes at one year. Methods: Retrospective chart and EEG review was performed in pediatric NMDARE patients at a single center. Patients with first EEGs available within 48 h of admission, prior to treatment, and one-year follow-up data were included. EEGs were independently reviewed by two epileptologists, and a third when disagreement occurred. Clinical outcomes included modified Rankin scale (mRS) at one year. Results: Nine patients (6 females) (range 1.9–16.7 years) were included. Five of nine patients had loss of posterior dominant rhythm (PDR) and three of nine patients had absent sleep architecture. Loss of PDR correlated with a worse mRS score at one year (2.8 versus 0.5, p = 0.038). Loss of PDR and loss of sleep architecture was associated with increased inpatient rehabilitation stay and in higher number of immunotherapy treatments administered. In multivariate analysis, absence of sleep architecture (p = 0.028), absence of PDR (p = 0.041), and epileptiform discharges (p = 0.041) were predictors of mRS at one year. Conclusions: Loss of normal PDR, absence of sleep architecture, and epileptiform discharges are associated with worse outcomes at one year which has not been reported before. EEG characteristics may help prognosticate in NMDARE. Larger studies are needed to confirm these findings.

Objective: To examine levels of plasma osteopontin (OPN), a recently described neuroinflammatory biomarker, in children with abusive head trauma (AHT) compared with children with other types of traumatic brain injury (TBI). Study design: The study cohort comprised children aged <4 years diagnosed with TBI and seen in the intensive care unit in a tertiary children's hospital. Patients were classified as having confirmed or suspected AHT or TBI by other mechanisms (eg, motor vehicle accidents), as identified by a Child Protection Team clinician. Serial blood samples were collected at admission and at 24, 48, and 72 hours after admission. Levels of OPN were compared across groups. Results: Of 77 patients identified, 24 had confirmed AHT, 12 had suspected AHT, and 41 had TBI. There were no differences in the Glasgow Coma Scale score between the patients with confirmed AHT and those with suspected AHT and those with TBI (median score, 4.5 vs 4 and 7; P =.39). At admission to the emergency department, OPN levels were significantly higher in children with confirmed AHT compared with the other 2 groups (mean confirmed AHT, 471.5 ng/mL; median suspected AHT, 322.3 ng/mL; mean TBI, 278.0 ng/mL; P =.03). Furthermore, the adjusted mean trajectory levels of OPN were significantly higher in the confirmed AHT group compared with the other 2 groups across all subsequent time points (P = <.01). Conclusions: OPN is significantly elevated in children with confirmed AHT compared with those with suspected AHT and those with other types of TBI. OPN expression may help identify children with suspected AHT to aid resource stratification and triage of appropriate interventions for children who are potential victims of abuse.