Dravet syndrome (DS), formerly known as severe myoclonic epilepsy of infancy (SMEI), is a rare, devastating developmental and epileptic encephalopathy (DEE) with an estimated prevalence of 1 in 15,700–40,000 live births. The disorder typically manifests in the first year of life with prolonged, fever-triggered (febrile) seizures, followed by the emergence of multiple seizure types including myoclonic, atypical absence, and focal seizures. Beyond seizures, patients experience progressive developmental regression, intellectual disability, gait abnormalities, and high mortality (estimated 10–15% cumulative mortality by age 20).
The vast majority of Dravet syndrome cases are caused by heterozygous loss-of-function variants in SCN1A (sodium channel neuronal type 1 alpha subunit), a gene encoding a voltage-gated sodium channel critical for neuronal excitability, particularly in GABAergic interneurons[@dravet2018].
SCN1A is located on chromosome 2q24.3 and encodes Nav1.1, a voltage-gated sodium channel alpha subunit predominantly expressed in inhibitory GABAergic interneurons throughout the brain. The gene spans approximately 190 kb and contains 26 exons. Over 1,000 pathogenic variants have been described, including:
The distribution of variants across the entire gene (N-terminal to C-terminal domains) means that therapeutic approaches must work regardless of the specific mutation type, which has shaped the strategy toward antisense oligonucleotides (ASOs), gene therapy activation, and gene replacement approaches.
Nav1.1 is critical for the proper function of GABAergic inhibitory interneurons. Loss of functional Nav1.1 channels leads to:
This "interneuronopathy" model explains why DS is distinct from other channelopathies: the primary defect is loss of inhibition, not gain of excitability[@dravet2018].
| Metric | Value |
|---|---|
| Prevalence | 1:15,700–40,000 live births |
| Incidence | ~1:20,000–50,000 (varies by region) |
| Sex ratio | Slight male predominance (1.5:1) |
| Family recurrence | <5% (mostly de novo variants) |
| Mutational origin | ~80% de novo, ~20% inherited from affected or mosaic parent |
Prevalence estimates have improved with broader genetic testing; some studies suggest prevalence may be as high as 1:5,000 given underdiagnosis in resource-limited settings[@dravet2018].
The hallmark presentation is onset of febrile seizures (temperature >38°C) between 3–18 months, typically 6–9 months. These initial seizures are often prolonged (>10 minutes, qualifying as status epilepticus) and may be generalized or hemiclonic. Importantly, initial development is typically normal before seizure onset.
Multiple seizure types emerge, including:
At this stage, developmental regression becomes apparent: previously achieved milestones (walking, speaking) may be lost or plateau.
Seizures may become less frequent in some patients, but the burden of cognitive impairment, behavioral disorders (autism spectrum features, ADHD), and motor dysfunction (ataxia, gait instability) persists. Patients remain dependent on caregivers throughout life.
Based on the International League Against Epilepsy (ILAE) classification, Dravet syndrome is diagnosed clinically by:
Genetic testing is the gold standard for diagnosis:
Genetic confirmation is critical not only for diagnosis but also for genetic counseling, family planning, and eligibility for clinical trials targeting specific mutation types.
Dravet syndrome is notably resistant to many conventional ASMs. Evidence-based treatments include:
| Drug | Evidence Level | Mechanism | Notes |
|---|---|---|---|
| Fenfluramine (Fintepla) | Strong (Phase 3 RCT) | 5-HT agonist, sigma-1 agonist | Only FDA-approved DS-specific therapy; significant seizure reduction[@dravet2020] |
| Cannabidiol (Epidiolex) | Strong (Phase 3 RCT) | CB1/CB2 modulation, GPR55 | FDA-approved for Dravet; reduces seizure frequency[@dravet2018] |
| Stiripentol (Diacomit) | Strong (EMA-approved) | GABA-A potentiation | Often used in combination with clobazam + valproate |
| Clobazam | Moderate | Benzodiazepine, GABA-A modulation | Tachyphylaxis common; useful as adjunct |
| Valproic acid | Moderate | Multiple mechanisms | Broad-spectrum ASM; often first-line |
| Topiramate | Low-moderate | Multiple mechanisms | May worsen cognitive effects |
| Levetiracetam | Low | SV2A modulation | Often ineffective; may worsen myoclonus |
AVOID: Carbamazepine, lamotrigine, vigabatrin, phenytoin — these can exacerbate seizures in DS.
Fenfluramine received FDA approval for Dravet syndrome in 2020 based on two Phase 3 placebo-controlled trials demonstrating a median seizure reduction of ~50-70%[@dravet2020]. Its mechanism involves:
Cardiac monitoring is required (valvular heart disease and pulmonary arterial hypertension risk) due to the historical association with fenfluramine for obesity.
Dravet syndrome is a prime target for gene therapy approaches given its monogenic cause and early-onset, progressive nature. Multiple approaches are in development:
STK-001 (Stoke Therapeutics) — allele-specific ASO that increases SCN1A mRNA and Nav1.1 protein expression from the wild-type allele. Currently in Phase 1/2 clinical trials (NCT04442152)[@dravet2018]. See clinical trial page for STK-001.
STK-002 (Stoke Therapeutics) — higher-dose formulation for adults in Phase 1.
ETX101 (Encoded Therapeutics) — AAV9-delivered CRISPR-activation construct targeting the SCN1A promoter to increase endogenous expression. Preclinical IND-enabling studies. See clinical trial page for ETX101.
Full-length SCN1A (~6kb coding sequence) approaches AAV packaging limits (~4.7kb with regulatory elements). Strategies include:
With ~40% of Dravet patients having missense variants, precision editing approaches could address the underlying cause. Beam Therapeutics and academic groups are developing base editing strategies for SCN1A missense mutations.
| Outcome | Details |
|---|---|
| Seizure trajectory | Often improves after adolescence but rarely seizure-free |
| Cognitive outcome | 100% have intellectual disability (IQ typically 30-70) |
| Motor outcome | Progressive gait instability, ataxia in >50% |
| Behavioral | Autism spectrum features in 50-70%; ADHD, anxiety common |
| Sleep | Disrupted sleep architecture in >70% |
| Mortality | 10-15% by age 20; SUDEP (sudden unexpected death in epilepsy) is the leading cause |
Key open questions for Dravet syndrome research: