Communications biology
January 28, 2023
Andrea I Luppi, Jakub Vohryzek, Morten L Kringelbach et al.
98 citations
Consciousness depends on how tightly brain function follows the brain's physical wiring. Using MRI scans, researchers measured structure-function coupling across spatial scales in people who were unconscious from anesthesia or brain injury and in people under psychedelics (LSD or ketamine). During loss of consciousness, function more closely tracked the brain's structural connections, a signature that could distinguish behaviorally similar brain-injured patients and detect covert consciousness. In contrast, psychedelics decoupled function from structure, and this decoupling correlated with physiological and subjective scores. The findings suggest that connectome harmonic decomposition reveals how neuromodulation and network architecture jointly shape consciousness.
ACS chemical neuroscience
February 7, 2024
Pedro A M Mediano, Fernando E Rosas, Christopher Timmermann et al.
60 citations
LSD increases brain entropy (neural signal diversity) across all conditions, but the effect is strongest when eyes are closed. Brain entropy changes correlate with subjective psychedelic experience ratings, except when viewing a video, possibly because external stimuli compete with LSD-induced imagery. This shows context modulates neural dynamics during psychedelic experiences, highlighting the importance of environment in psychedelic psychotherapy.
Scientific reports
April 17, 2023
Rubén Herzog, Pedro A M Mediano, Fernando E Rosas et al.
51 citations
Psychedelic drugs such as LSD, which activate the serotonin 2A receptor, produce profound changes in consciousness and are linked to increased entropy in spontaneous brain activity. This study provides the first model-based explanation for that entropy increase by extending a whole-brain model of serotonin neuromodulation. The model reproduced the overall rise in neural entropy seen in prior experiments. Entropy increased across all brain regions, with the largest effects in visuo-occipital areas. At the whole-brain level, this reconfiguration was not well explained by the density of serotonin 2A receptors but was closely related to the topological properties of the brain's anatomical connectivity.
Scientific reports
January 29, 2025
Richard J Zeifman, Meg J Spriggs, Hannes Kettner et al.
26 citations
A preliminary test of the REBUS model found that a high dose of psilocybin (25 mg) reduced confidence in negative self-beliefs in 11 healthy individuals, both during the acute experience and four weeks later. Greater brain signal entropy and stronger subjective effects under psilocybin correlated with larger decreases in negative self-belief confidence. Decreases in negative self-belief confidence were linked to increases in well-being. The findings provide initial evidence that relaxing and revising negative self-beliefs may underlie psilocybin's positive psychological effects, with increased neuronal entropy as a possible mechanism. Replication in larger clinical samples is needed.
NeuroImage
November 1, 2022
Hardik Rajpal, Pedro A M Mediano, Fernando E Rosas et al.
23 citations
Schizophrenia and drug-induced states from LSD and ketamine both increase neural signal diversity, but they differ in brain connectivity: schizophrenia shows increased information flow from front to back of the brain, while the drugs reduce it. These differences can be modeled by altering Bayesian inference in a predictive processing framework: drug effects correspond to reduced precision of prior beliefs, whereas schizophrenia involves increased precision of sensory information. The findings clarify similarities and differences between these altered states, with implications for understanding consciousness and developing mental health treatments.
The European journal of neuroscience
March 1, 2022
Claudia Pascovich, Santiago Castro-Zaballa, Pedro A M Mediano et al.
16 citations
Neural complexity, measured by the Lempel-Ziv (LZ) compression algorithm, is lowest during NREM sleep and similar during REM sleep and wakefulness in cats with intracranial electrodes. Under subanaesthetic doses of ketamine (5, 10, and 15 mg/kg), complexity follows an inverted U-shaped curve in some electrodes, primarily in prefrontal cortex, rising at low doses and falling as doses approach anaesthetic levels. The variability in the ketamine dose-response curve across cats and cortices was larger than across sleep stages, highlighting differential local dynamics. These results replicate findings in humans and other species, showing neural complexity is sensitive to changes in conscious state.
Cell reports
July 22, 2025
George Blackburne, Rosalind G McAlpine, Marco Fabus et al.
10 citations
Inhaling a high dose of vaporized synthetic 5-MeO-DMT radically reorganizes low-frequency brain oscillations, making them heterogeneous, viscous, and nonrecurring, and halting their typical forward and backward travel across the cortex. This reorganization also causes broadband neural activity to become more stable and low-dimensional, with increased energy barriers for rapid global shifts. These findings, based on EEG data from 29 healthy individuals, provide a detailed account of how the drug sculpts human brain dynamics and reveal atypical cortical slow-wave behaviors relevant to neuroscientific models of serotonergic psychedelics.
Neuroscience of consciousness
January 1, 2025
Daniel A Atad, Pedro A M Mediano, Fernando E Rosas et al.
10 citations
A scoping review of neural complexity in meditation finds that, during meditation, brain activity shows higher complexity compared to waking rest or mind-wandering, while regular meditation practice is associated with decreased baseline complexity as a long-term trait. The review disentangles different families of complexity measures, distinguishes short-term state effects from long-term trait effects, and considers differences among meditation styles. It provides a framework to guide debates and offers practical guidelines for future research on complexity and consciousness.