Cerebral malaria (CM) affects ~3 million children each year, primarily in sub-Saharan Africa. Antimalarial medications can rapidly clear P. falciparum parasites, but mortality rates remain high (12-25%). Survivors do not escape unscathed--~30% experience neurologic sequelae including epilepsy, behavioral disorders and gross neurologic deficits. Acute seizures occur commonly in CM and are associated with higher neurologic morbidity and mortality. Seizure management in malaria endemic regions is challenging because the available antiepileptic drugs (AED) induce respiratory suppression and assisted ventilation is unavailable. More optimal seizure control may improve neurologic outcomes in pediatric CM survivors, especially if the medication used is affordable and can be delivered safely and easily in resource limited settings. We propose to conduct a dose- escalation, safety and feasibility study of enteral levetiracetam (LVT) for seizure control in children with CM and seizures admitted to Queen Elizabeth Central Hospital in Blantyre, Malawi. Enteral LVT given via nasogastric tube (NGT) rather than an intravenous (IV) formulation will be used since LVT has excellent enteral bioavailability and IV formations are not affordable in most malaria-endemic regions. LVT will be escalated based upon efficacy and toxicity endpoints with efficacy defined as seizure freedom in 75% of children during the 24 hours post LVT administration. Generally, only ~20% of children admitted with CM and seizures who receive standard AED treatment remain seizure free during the first 24 hours after admission. Safety assessments will include monitoring for problems related to NGT placement and medication delivery, laboratory parameters at 24 hours and 7 days post LVT, and overall case fatality rates. If efficacy endpoints are not met but enteral LVT is otherwise tolerated, LVT doses of ~3 times the standard dose used for other seizure-related conditions will be assessed. Pharmacokinetic (Pk) data on the absorption and elimination of LVT in CM will be obtained since enteral formulations are not typically used in critically ill children and malaria has been shown to impact drug absorption and elimination for some other medications. Since there is no efficacy data on the use of LVT for seizure control in pediatric CM, using the LVT dose determined to be optimal, we will obtain preliminary efficacy data in an open label, non-randomized assessment. The safety, feasibility, Pk, optimal dosing and preliminary efficacy data from this proposed work will provide the information needed to determine whether to proceed with a randomized clinical trial of LVT in pediatric CM patients which would include acute seizure control as well as long term neurologic outcomes as critical endpoints. Since enteral LVT is relatively affordable for short-term use and could be feasibly delivered in resource limited settings, this therapy could potentially be scaled up for broad use throughout malaria endemic African countries.

Public Health Relevance

Pediatric cerebral malaria (CM) affects more than 3 million children each year killing ~20% and leaving one third of survivors with long term neurologic and psychiatric sequelae. Seizures occur commonly with CM and are associated with an increased risk of death and neuropsychiatric disabilities. In this Malawi-based dose- escalation, safety and feasibility study of enteral levetiracetam in pediatric CM, we will lay the groundwork for future efficacy studies aimed at improving seizure control and ultimately decreasing the neurologic morbidity of pediatric CM.

National Institute of Health (NIH)
National Institute of Neurological Disorders and Stroke (NINDS)
Research Project (R01)
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National Institute of Neurological Disorders and Stroke Initial Review Group (NSD)
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Hirtz, Deborah G
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University of Rochester
Schools of Dentistry
United States
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Birbeck, Gretchen L (2014) Careers in global neurology. Ann Neurol 75:805-9
Autmizguine, Julie; Moran, Cassie; Gonzalez, Daniel et al. (2014) Vancomycin cerebrospinal fluid pharmacokinetics in children with cerebral ventricular shunt infections. Pediatr Infect Dis J 33:e270-2
Nguyen, Anh; Rossi, Steven; Croteau, David et al. (2013) Etravirine in CSF is highly protein bound. J Antimicrob Chemother 68:1161-8