摘要:SummaryPatients with Alzheimer's disease (AD) undergo a slowing of waking electroencephalographic (EEG) rhythms since prodromal stages, which could be ascribed to poor sleep quality. We examined the relationship between wake and sleep alterations by assessing EEG activity during sleep and (pre-sleep/post-sleep) wakefulness in AD, mild cognitive impairment (MCI) and healthy controls. AD and MCI show high sleep latency and less slow-wave sleep. Reduced sigma activity characterizes non-rapid eye movement (NREM) sleep, reflecting sleep spindles loss. The EEG slowing characterizes REM sleep and wakefulness of AD and MCI, with strong correlations among the two phenomena suggesting common neuropathological mechanisms. Evening-to-morning variations in waking EEG revealed the gradual disappearance in MCI and AD of overnight changes in delta activity, indicating a progressive decay of sleep restorative functions on diurnal activity that correlates with the impairment of sleep high-frequency activity in AD. Our findings support a linkage between wake and sleep alterations, and the importance of sleep-related processes in Alzheimer's disease progression.Graphical abstractDisplay OmittedHighlights•The EEG slowing characterizes wake and REM sleep in AD and MCI compared to controls•NREM sleep reveals a posterior reduction of sigma EEG power compared to controls•MCI and AD show a progressive decay of sleep restorative functions on diurnal EEG•EEG slowing in REM sleep shows the highest correlation with cognitive impairmentHuman Physiology ; Cognitive Neuroscience ; Chronobiology
