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Sérgio Mota-Rolim

Brain Institute, Federal University of Rio Grande do Norte, Natal 59076, Brazil.

3 papers in the library · 14 citations · publishing 2024-2025

Papers

Electrophysiological Correlates of Lucid Dreaming: Sensor and Source Level Signatures.

The Journal of neuroscience : the official journal of the Society for Neuroscience May 14, 2025 Çağatay Demirel, Jarrod Gott, Kristoffer Appel et al. 8 citations

Lucid dreaming, where a person becomes aware they are dreaming, is linked to REM sleep. To overcome previous research limitations, a new preprocessing pipeline was applied to pooled EEG data from multiple labs. Sensor-level differences between lucid and nonlucid REM sleep were minimal, but source-level analysis revealed reduced beta power (12-30 Hz) in right central and parietal areas, including the temporoparietal junction, during lucid dreaming. Alpha-band (8-12 Hz) connectivity increased compared to nonlucid REM sleep. During eye signaling of lucidity, gamma1 power (30-36 Hz) increased in right temporo-occipital regions, including the precuneus, and interhemispheric gamma1 connectivity rose. These patterns suggest shifts in network communication underlying changes in perception, self-awareness, and cognitive control.

Neuropsychopharmacological Induction of (Lucid) Dreams: A Narrative Review.

Brain sciences April 25, 2024 Abel A Oldoni, André D Bacchi, Fúlvio R Mendes et al. 4 citations

Lucid dreaming, a state where dreamers know they are dreaming and may control the dream, is naturally rare, prompting interest in induction methods. This review examines neuropsychopharmacological approaches, covering sleep regulation, REM sleep control via neurotransmission, and the brain areas involved in lucidity. Substances that boost cholinergic or dopaminergic transmission, like galantamine, show potential for inducing lucid dreaming by increasing metacognition, REM sleep, or dream recall. However, the complexity of these neurotransmitter systems makes interpreting results challenging. The authors conclude that while promising, more research is needed to develop a reliable pharmacological method for inducing lucid dreaming.

Electrophysiological correlates of lucid dreaming: sensor and source level signatures

bioRxiv Preprint Server April 9, 2024 Çağatay Demirel, Jarrod Gott, Kristoffer Appel et al. 2 citations preprint

Lucid dreaming, a state of conscious awareness during REM sleep, is associated with specific brain activity patterns. Compared to non-lucid REM sleep, EEG sensor-level differences were few. However, source-level analysis revealed increased gamma1 power (30-36 Hz) in left-hemispheric temporal areas during lucid dreaming, potentially reflecting verbal insight processes, and in right temporo-occipital regions including the precuneus around the onset of lucid eye signaling, linked to self-referential thinking. Beta power (12-30 Hz) decreased in right central and parietal areas including the temporo-parietal junction, possibly related to conscious reality assessment. Alpha-band (8-12 Hz) functional connectivity increased, contrasting with psychedelic states and highlighting enhanced self-awareness.