Seizure‐related death exhibits a circadian rhythm independent of seizure timing or sleep in a mouse model of Dravet syndrome

Jun 2, 2025The Journal of physiology

Seizure-related death follows a daily cycle separate from seizure timing or sleep in a mouse model of Dravet syndrome

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Abstract

Sudden unexpected death in epilepsy (SUDEP) peaks during the subjective nighttime, even in constant darkness.

Timing of sudden death after seizures is influenced by circadian rhythms, independent of external light cues.
Fatal seizures lead to longer periods of unconsciousness, which also peak during the subjective night.
Increased risk of seizure-associated death occurs during nighttime, suggesting multiple underlying mechanisms.
The study employed a mouse model of , which mirrors key aspects of seizure-related death in humans.

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Sudden unexpected death in epilepsy (SUDEP) is the most extreme consequence of epilepsy. SUDEP typically occurs at night. Because humans sleep at night, these nighttime deaths are often attributed to seizures arising from sleep. Nocturnal mice also experience more seizure-associated deaths during the nighttime. This could represent timing that is under circadian control. To examine this, male and female Scn1amice, a model of the epileptic encephalopathy , in which patients experience spontaneous seizures that often result in death, were housed in constant darkness and the timing of seizure associated death was assessed. We found that the timing of sudden death following seizures persists in constant darkness and peaks during the subjective nighttime. This of death was independent of the timing of potentially fatal seizures and more frequently occurred while awake. Potentially fatal seizures resulted in prolonged unconsciousness, which also exhibited a circadian rhythm peaking during the subjective night. These findings provide support for circadian regulation, independent of seizure timing and sleep, in the nighttime risk of seizure-associated death. Nighttime seizures may increase risk of SUDEP via multiple mechanisms, as evident by peak spontaneous sudden death and profoundly impaired consciousness following seizures during the subjective night. KEY POINTS: Sudden unexpected death in epilepsy, or SUDEP, is a devastating outcome of intractable epilepsy. Converging lines of evidence indicate that there is a time-of-day preference for SUDEP, with more SUDEP occurring during the night. Several animal models of the epileptic encephalopathy Dravet syndrome (DS), including the one employed in our study, recapitulate key features of DS in patients, including a high rate of seizure-related death and more of the deaths occurring at night. Here, we removed light/dark photocycles, by housing animals in constant darkness, and identify nighttime preponderance of death, suggesting that this is under circadian regulation. We further carefully characterize fatal vs. non-fatal seizures in our animals and identify features that may prove to be useful biomarkers to predict which seizures may become fatal. R1407X/+

Key numbers

80 of 92

Seizure-related deaths with

Deaths associated with in mice.

CT 16

Peak death timing

Seizure-associated deaths occurred most frequently during the subjective night.

22.4%

Survival rate until PND 90

Percentage of mice that survived until postnatal day 90.

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Seizure‐related death exhibits a circadian rhythm independent of seizure timing or sleep in a mouse model of Dravet syndrome

Abstract

Key numbers

Full Text

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