Microstate transition entropy during hyperexcitability in Alzheimer's disease and sleep and its associations with cognitive decline
Sebastian Moguilner, Courtney Berezuk, Alex C Bender, Kyle R Pellerin, Stephen N Gomperts, Sydney Cash, Rani A Sarkis, Alice D Lam

TL;DR
This study explores how brain activity patterns during sleep differ in Alzheimer's patients and how these patterns relate to cognitive decline.
Contribution
The study introduces the analysis of microstate transition entropy during sleep in Alzheimer's patients with and without epilepsy.
Findings
AD patients without epilepsy showed higher microstate entropy in awake and REM sleep compared to healthy controls.
AD patients with epilepsy had reduced REM sleep entropy, closer to healthy levels.
Increased N2 sleep entropy predicted faster cognitive decline over time.
Abstract
Sleep disturbances affect nearly 60% of people with Alzheimer's disease (AD) at clinical and preclinical stages. Hyperexcitability in AD also arises during sleep and can lead to epileptiform activity and seizures that impact memory consolidation during N2 sleep. Understanding the millisecond‐scale dynamic activation patterns in EEG topography (i.e., microstates) can provide neurophysiological insights. However, no studies have examined microstate dynamics during sleep and hyperexcitability in AD and its relationship with cognitive decline. Employing ambulatory scalp EEG recordings, we examined 33 cognitively normal healthy older adult controls (HC), 36 individuals with early clinical stages of AD without history or risk factors for epilepsy (AD‐NoEp), and 14 individuals with early clinical stages of AD who developed epilepsy related to Alzheimer's (AD‐Ep). The analysis involved…
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Taxonomy
TopicsSleep and Wakefulness Research · Epilepsy research and treatment · EEG and Brain-Computer Interfaces
