Zorevunersen in Children and Adolescents with Dravet Syndrome.
Summary
Zorevunersen in Children and Adolescents with Dravet Syndrome. Original Article Abstract Background Dravet syndrome is a severe developmental and epileptic encephalopathy caused primarily by SCN1A haploinsufficiency. Risks of sudden unexpected death in epilepsy and cognitive deficits are higher among patients with this syndrome than in the general population with epilepsy. The effects of zorevunersen, an antisense oligonucleotide designed to up-regulate NaV1.1 sodium channels, in patients
Content
# Zorevunersen in Children and Adolescents with Dravet Syndrome.
*Original Article*
# Abstract
## Background
Dravet syndrome is a severe developmental and epileptic
encephalopathy caused primarily by SCN1A haploinsufficiency. Risks of sudden
unexpected death in epilepsy and cognitive deficits are higher among patients
with this syndrome than in the general population with epilepsy. The effects of
zorevunersen, an antisense oligonucleotide designed to up-regulate NaV1.1 sodium
channels, in patients with Dravet syndrome are not known.
## Methods
We enrolled patients 2 to 18 years of age with Dravet syndrome who were
receiving standard antiseizure medications in two phase 1-2a, open-label,
multicenter studies (MONARCH and ADMIRAL). Patients were included in either a
single-ascending-dose cohort, in which zorevunersen (10 to 70 mg) was
administered on day 1 only, or a multiple-ascending-dose cohort, in which
zorevunersen (20 to 70 mg) was administered two or three times in a 3-month
period. Patients eligible for rollover to the two open-label extension studies
(SWALLOWTAIL and LONGWING) continued to receive zorevunersen (≤45 mg) every 4
months. The safety and pharmacokinetics of zorevunersen were assessed in the
primary analysis; clinical effects were also evaluated.
## Results
A total of 81 patients were enrolled in the phase 1-2a studies. As of
May 30, 2025, a total of 75 patients had entered the extension studies. Most
adverse events were mild or moderate. The most common adverse event was
post-lumbar puncture syndrome (in 25% of patients) in the phase 1-2a studies and
was an elevated protein level in cerebrospinal fluid (in 45%) in the extension
studies. One patient had suspected unexpected serious adverse reactions, 1 had
an adverse event that led to study withdrawal, 2 died from sudden unexpected
death in epilepsy, and 1 died from malnutrition. Patients who received 70 mg of
zorevunersen (one, two, or three doses) in the phase 1-2a studies, followed by
up to 45 mg in the extension studies, had a median change from baseline in
convulsive-seizure frequency ranging from -58.82% to -90.91% across 1-month
intervals during the first 20 months of the extension studies. The data
supported improvements in overall clinical status, quality of life, and adaptive
behavior with continued treatment for up to 36 months in the extension studies.
## Conclusions
The safety profile and initial clinical improvement support the
continued development of zorevunersen as a potential disease-modifying treatment
for Dravet syndrome. (Supported by Stoke Therapeutics; MONARCH and SWALLOWTAIL
ClinicalTrials.gov numbers, NCT04442295 and NCT04740476, respectively; ADMIRAL
and LONGWING ISRCTN Registry numbers, ISRCTN99651026 and ISRCTN12811235,
respectively.).
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DOI: 10.1056/NEJMoa2506295