Neonatal Cardiac Arrest Following Lacosamide Treatment: A Case Report.

BACKGROUND: Lacosamide is an antiepileptic drug with US Food and Drug Administration approval for the treatment of partial-onset seizures in patients older than one month. Lacosamide works by selective enhancement of proteins that induce preferential slow promotion of sodium channels to the hyperpolarized inactive state. Lacosamide is generally well-tolerated; however, clinical and nonclinical studies have linked its use with cardiac side effects including PR prolongation and atrioventricular (AV) block. RESULTS: We present the case of a three-week-old female neonatal patient born at 25 weeks' gestation who developed second-degree AV heart block and cardiac arrest after initiating lacosamide therapy. The patient was being treated for neonatal seizure complicated by intraventricular hemorrhage (grade II) and electrolyte disturbances with phenobarbital, levetiracetam, and phenytoin. Before addition of lacosamide therapy, the patient had an unremarkable electrocardiogram and no known cardiac risk factors for lacosamide. After medication discontinuation, the patient experienced no reoccurring episodes or other cardiac events. CONCLUSION: Use of lacosamide for neonatal populations is currently under evaluation. This is the first report of adverse cardiac event (AV block) in the setting of neonatal lacosamide use. Risk of future adverse cardiac events should be evaluated when determining the safety and efficacy of lacosamide in the neonatal population.

Development of an Equity, Diversity, Inclusion, and Anti-racism Pledge as the Foundation for Action in an Academic Department of Neurology.

Racial inequities as illustrated by the health disparities in COVID19 infections and deaths, the recent killings of Black men and women by law enforcement, and the widening socioeconomic inequality and have brought systemic racism into a national conversation. These unprecedented times may have deleterious consequences, increasing stress, and trauma for many members of the neurology workforce. The Equity, Diversity, Inclusion and Anti-Racism Committee within our Department of Neurology provides infrastructure and guidance to foster a culture of belonging and addresses the well-being of faculty, staff, and trainees. Here, we present the creation and implementation of our Equity, Diversity, Inclusion, and Anti-Racism (EDIA) Pledge which was central to our committee's response to these unprecedented times. We outline the process of developing this unique EDIA Pledge and provide a roadmap for approaching these important topics through a CME Neurology Grand Rounds aimed at fostering a diverse, inclusive, equitable and antiracist work environment. Through the lived experiences of 4 faculty members, we identify the impact of bias and microaggressions, and encourage allyship and personal development for cultural intelligence. We hope these efforts will inspire Neurology departments and other academic institutions across the globe to make a similar pledge.

Arnold-Chiari type 1 malformation in Potocki-Lupski syndrome.

Potocki-Lupski syndrome (PTLS) is a genetic disorder that results from an interstitial duplication within chromosome 17p11.2. Children with PTLS typically present with infantile hypotonia, failure to thrive, and global developmental delay with or without major organ system involvement. Systematic clinical studies regarding growth, cardiovascular disease, and neurocognitive profiles have been published; however, systematic evaluation of central nervous system structure by magnetic resonance imaging (MRI) of the brain has not been reported. Herein, we describe three patients with PTLS who were found-in the course of routine clinical care-to have a type 1 Arnold-Chiari malformation (CM-1). This finding raises the question of whether the incidence of CM-1 is increased in PTLS, and hence, if an MRI of the brain should be considered in the evaluation of all patients with this chromosomal duplication syndrome.