Nature communications
May 9, 2024
Jacinthe Cataldi, Aurélie M Stephan, José Haba-Rubio et al.
32 citations
Incomplete awakenings from non-rapid eye movement sleep can produce sleepwalking and related behaviors, which sometimes involve conscious experience and later recall. Using high-density EEG and immediate interviews, the authors found that conscious experiences during these episodes (56% of cases) were preceded by high-amplitude slow waves in anterior brain regions and activation in posterior regions, patterns similar to those seen in dreaming. Recall of the experience (56% of cases) was linked to higher EEG activation in the right medial temporal area before movement. No conscious experience occurred in 19% of episodes, and no recall in 25%. These findings suggest that the brain activity underlying parasomnia experiences resembles that of dreams, pointing to core processes for sleep consciousness.
Sleep
May 14, 2021
Laura Sophie Imperatori, Jacinthe Cataldi, Monica Betta et al.
30 citations
Functional connectivity metrics, which describe how brain regions interact, can reveal differences across stages of sleep and wakefulness that power-based analyses alone may miss. Analyzing overnight sleep and resting-state wakefulness recordings from 24 healthy adults, the study found that combining power features with two connectivity measures—weighted Phase Lag Index (wPLI) and weighted Symbolic Mutual Information (wSMI)—improved the accuracy of classifying four vigilance stages (wakefulness, NREM-N2, NREM-N3, and REM sleep) compared to using any single feature type. Delta-band connectivity (0.5–4 Hz) was most important across all classifications, suggesting slow waves play a role in consciousness and sensory disconnection.
bioRxiv Preprint Server
October 25, 2024
Tommaso Bertoni, Giulia Ricci, Jane Jöhr et al.
1 citation
preprint
Conscious experience includes not only awareness of external objects but also a sense of the embodied self, which relies on integrating multisensory stimuli near the body, a process involving the Peripersonal Space (PPS) system. Using high-density EEG in awake participants, a neural marker of PPS—high-beta oscillations in centroparietal regions during audiotactile integration near versus far from the body—was identified. This marker persisted during dreaming and waking conscious states but was absent during dreamless, unconscious states. In patients with disorders of consciousness, the same index predicted behavioral measures of consciousness and clinical outcome, suggesting that multisensory integration within PPS is tightly linked to conscious experience.