Seizure Burden, EEG, and Outcome in Neonates With Acute Intracranial Infections: A Prospective Multicenter Cohort Study

Retrospective study on neonatal seizures in a tertiary center of northern Italy after ILAE classification: Incidence, seizure type, EEG and etiology

OBJECTIVE

We aimed to evaluate epidemiology, seizure type, EEG, and etiology of neonatal seizures (NS) in a tertiary neonatal intensive care unit.

METHODS

Data on infants with a neurophysiological confirmation of NS were collected between 2009 and 2022. Seizure types and epileptic syndromes were classified by the ILAE classification and EEG by the Italian Neonatal Seizure Collaborative Network (INNESCO) score.

RESULTS

Out of 91,253 neonates, 145 presented with NS; 69.7 % were born at term and 30.3 % were preterm infants. The incidence of NS in neonates born at our center was 1.2 per 1,000 live newborns (96/80697 neonates) while in the entire neonatal population admitted to our center it was 1.6 per 1,000 live births, increasing with lower preterm age. Compared to previous studies, we found a lower proportion of hypoxic-ischemic encephalopathy (HIE) (23.4 %) and a higher rate of genetic contribution (26.2 %). The infection rate was higher in preterm (31.8 %) than in full term (9.9 %) infants. Electrographic seizures were associated with acute provoked seizures (35.9 %), preterm age (52.3 %), and HIE (52.9 %). Vascular etiology was associated with focal clonic seizures (56.8 %). Non-structural neonatal genetic epilepsy was associated with sequential seizures (68.2 %), particularly KCNQ2 and SCN2A epilepsy. Background EEG was abnormal in all HIE, infections (85.7 %) and metabolic NS (83.3 %). In genetic epilepsy, background EEG depended on the epileptic syndrome: normal in 80 % of self-limited neonatal epilepsy and abnormal in 77.8 % of developmental and epileptic encephalopathy. Electroclinical seizures were associated with focal onset, while electrographic seizures correlated with a multifocal onset.

CONCLUSIONS

A low incidence of HIE and a high incidence of genetic etiology were observed in our cohort of NS. Seizure type and EEG features are fundamental to address etiology.

Neurological outcomes and mortality after neonatal seizures with electroencephalographical verification. A systematic review

AIM

To conduct a systematic review of post-neonatal neurological outcomes and mortality following neonatal seizures with electroencephalographical verification.

METHODS

The databases Medline, Embase and Web of Science were searched for eligible studies. All abstracts were screened in a blinded fashion between research team members and reports found eligible were obtained and screened in full text by two members each. From studies included, outcome results for post-neonatal epilepsy, cerebral palsy, intellectual disability, developmental delay, mortality during and after the neonatal period and composite outcomes were extracted. A quality assessment of each study was performed.

RESULTS

In total, 5518 records were screened and 260 read in full text. Subsequently, 31 studies were included, containing cohorts of either mixed or homogenous etiologies. Follow-up time and gestational ages varied between studies. No meta-analysis could be performed due to the low number of studies with comparable outcomes and effect measures. Reported cumulative incidences of outcomes varied greatly between studies. For post-neonatal epilepsy the reported incidence was 5-84%, for cerebral palsy 9-78%, for intellectual disability 24-67%, for developmental delay 10-67% and for mortality 1-62%. Subgroup analysis had more coherent results and in cohorts with status epilepticus a higher incidence of post-neonatal epilepsy from 46 to 84% was shown.

CONCLUSION

The large variation of reported incidences for neurological outcomes and mortality found even when restricting to cohorts with electroencephalographically verified neonatal seizures indicates selection bias as a significant confounder in existing studies. Population-based approaches are thus warranted to correctly predict outcomes in this group.

Interdisciplinary fetal-neonatal neurology training applies neural exposome perspectives to neurology principles and practice

An interdisciplinary fetal-neonatal neurology (FNN) program over the first 1,000 days teaches perspectives of the neural exposome that are applicable across the life span. This curriculum strengthens neonatal neurocritical care, pediatric, and adult neurology training objectives. Teaching at maternal-pediatric hospital centers optimally merges reproductive, pregnancy, and pediatric approaches to healthcare. Phenotype-genotype expressions of health or disease pathways represent a dynamic neural exposome over developmental time. The science of uncertainty applied to FNN training re-enforces the importance of shared clinical decisions that minimize bias and reduce cognitive errors. Trainees select mentoring committee participants that will maximize their learning experiences. Standardized questions and oral presentations monitor educational progress. Master or doctoral defense preparation and competitive research funding can be goals for specific individuals. FNN principles applied to practice offer an understanding of gene-environment interactions that recognizes the effects of reproductive health on the maternal-placental-fetal triad, neonate, child, and adult. Pre-conception and prenatal adversities potentially diminish life-course brain health. Endogenous and exogenous toxic stressor interplay (TSI) alters the neural exposome through maladaptive developmental neuroplasticity. Developmental disorders and epilepsy are primarily expressed during the first 1,000 days. Communicable and noncommunicable illnesses continue to interact with the neural exposome to express diverse neurologic disorders across the lifespan, particularly during the critical/sensitive time periods of adolescence and reproductive senescence. Anomalous or destructive fetal neuropathologic lesions change clinical expressions across this developmental-aging continuum. An integrated understanding of reproductive, pregnancy, placental, neonatal, childhood, and adult exposome effects offers a life-course perspective of the neural exposome. Exosome research promises improved disease monitoring and drug delivery starting during pregnancy. Developmental origins of health and disease principles applied to FNN practice anticipate neurologic diagnoses with interventions that can benefit successive generations. Addressing health care disparities in the Global South and high-income country medical deserts require constructive dialogue among stakeholders to achieve medical equity. Population health policies require a brain capital strategy that reduces the global burden of neurologic diseases by applying FNN principles and practice. This integrative neurologic care approach will prolong survival with an improved quality of life for persons across the lifespan confronted with neurological disorders.

EEG and clinical characteristics of neonatal parechovirus encephalitis

RATIONALE

Human parechoviruses (HPeVs) are single -stranded ribonucleic (RNA) viruses belonging to the picornaviridae family with characteristics similar to enteroviruses. They either cause mild respiratory and gastrointestinal or no symptoms in older children and adults but can be a major cause of central nervous system (CNS) infection in the neonatal period and demonstrate a seasonal predilection. Starting in March 2022, we saw eight patients with polymerase chain reaction (PCR) proven HPeV encephalitis with seizures and some electroencephalographic (EEG) features raising concerns for neonatal genetic epilepsy. Although cerebrospinal fluid (CSF) and imaging findings have been previously described, there is little emphasis on seizure presentation and EEG findings of HPeV in the literature. We wish to highlight the EEG and seizure semiology of HPeV encephalitis that may mimic a genetic neonatal epilepsy syndrome.

METHODS

Retrospective chart review of all neonates seen at Children's Health Dallas, UTSW Medical Center between 03/18/2022-06/01/2022 with HPeV encephalitis.

RESULTS

Term neonates (postmenstrual age 37-40 weeks) presented with a variable combination of fever, lethargy, irritability, poor oral intake, erythematous rash, and focal seizures. One patient with a single episode of limpness and pallor did not undergo EEG due to a low suspicion for seizures. CSF indices were normal in all patients. EEG was abnormal in all patients where performed (n = 7). EEG features included dysmaturity (7/7, 100 %); excessive discontinuity (6/7, 86 %); excessive asynchrony (6/7, 86 %); multifocal sharp transients (7/7, 100 %). Focal/multifocal seizures were captured in 6/7 (86 %); tonic in 3/7 (42 %) and described as migrating in 2 patients. Subclinical seizures were noted in 6/7 (86 %) with status epilepticus in 5/7 (71 %) patients. In 2/7 (28 %) the EEG showed a burst suppression pattern with poor state variation and voltages of < 5-10 uV/mm during the inter-burst intervals. Repeat EEG (3-11 days post initial EEG) showed improvement in 3 of 4 patients. No patient had ongoing seizures beyond day two of admission (22.5 h after EEG initiation). MRI showed extensive restricted diffusion in the supratentorial white matter, thalami, and less frequently the cortex, mimicking imaging findings of a metabolic or hypoxic-ischemic encephalopathy (7/8). Seizures responded within 36 h of presentation to treatment with acute bolus doses of medications. One patient died due to diffuse cerebral edema and status epilepticus. Six patients had a normal clinical exam at discharge. All patients started on maintenance antiseizure medication (ASM) were sent home on either a single medication or two medications (phenobarbital and levetiracetam) with plans to wean phenobarbital after discharge.

CONCLUSIONS

HPeV is a rare cause of seizures and encephalopathy in neonates. Prior studies have emphasized specific patterns of white matter injury on imaging. We demonstrate that HPeV also commonly presents with clonic or tonic seizures with or without apnea and often subclinical multifocal and migrating focal seizures that could mimic a genetic neonatal epilepsy syndrome. Interictal EEG shows a dysmature background with excessive asynchrony, discontinuity, burst-suppression pattern, and multifocal sharp transients. However, we note that 100 % of patients responded quickly to standard ASM, and did not have seizures after hospital discharge- a factor that can help distinguish it from a genetic epilepsy syndrome.