Proc Natl Acad Sci U S A
April 11, 2016
Robin L. Carhart-Harris, Suresh Muthukumaraswamy, Leor Roseman et al.
887 citations
LSD produces marked changes in brain activity that correlate with its psychological effects. Increased blood flow in the visual cortex, decreased alpha power there, and an expanded functional connectivity profile of the primary visual cortex strongly correlated with visual hallucinations, suggesting that intrinsic brain activity influences visual processing more during the psychedelic state. Decreased connectivity between the parahippocampus and retrosplenial cortex correlated strongly with ego-dissolution and altered meaning, indicating this circuit's role in maintaining the self and processing meaning. Different imaging metrics showed strong relationships, allowing firmer inferences about their functional significance.
Curr Biol
April 13, 2016
Enzo Tagliazucchi, Leor Roseman, Mendel Kaelen et al.
531 citations
Lysergic acid diethylamide (LSD) increases global functional connectivity in the brain, and this neural change correlates with the experience of ego dissolution—a temporary loss of the sense of self. The more the brain's networks became globally interconnected under LSD, the more participants reported a diminished or dissolved sense of self. This suggests that the subjective feeling of ego dissolution is linked to a breakdown of the normal modular organization of brain connectivity.
Eur Neuropsychopharmacol
April 12, 2016
Mendel Kaelen, Leor Roseman, Joshua Kahan et al.
143 citations
Lysergic acid diethylamide (LSD) alters how the brain processes music-induced mental imagery by changing connectivity in the parahippocampal region. This suggests that psychedelics can enhance or modify the subjective experience of music through specific neural mechanisms, potentially linking sensory perception and imagination.
Hum Brain Mapp
April 29, 2016
Leor Roseman, Martin I. Sereno, Robert Leech et al.
63 citations
Under LSD, with eyes closed, patches of the visual cortex that represent the same part of the visual field (e.g., both representing the horizontal meridian) showed stronger functional connectivity than patches representing different parts, compared to placebo. This pattern, measured in 10 healthy subjects using resting-state fMRI, suggests that the early visual system during LSD-induced imagery behaves as if it were processing actual visual input, even when no external visual stimuli are present.
bioRxiv (Cold Spring Harbor Laboratory)
June 25, 2017
Mendel Kaelen, Romy Lorenz, Frederick S. Barrett et al.
20 citations
preprint
Lysergic acid diethylamide (LSD) alters how the brain processes music, particularly by enhancing activity and connectivity in networks linked to music perception and emotion. Sixteen healthy volunteers listened to a 7-minute music piece during fMRI after taking either 75 mcg of LSD or a placebo. The acoustic feature of timbral complexity—the richness of the music's spectral distribution—drove the most pronounced changes in brain activity and connectivity under LSD. These changes correlated with increased feelings of wonder evoked by the music. The results suggest a neurobiological basis for why music is useful in psychedelic therapy.
Journal of Vision
September 1, 2016
Leor Roseman, Martin I. Sereno, Robert Leech et al.
4 citations
Under LSD, the visual cortex's resting-state functional connectivity (RSFC) becomes more dependent on its intrinsic retinotopic organization, as if the brain were processing actual visual input despite closed eyes. In 10 healthy subjects, RSFC between non-adjacent patches of V1 and V3 that represent congruent parts of the visual field (both horizontal or both vertical meridians) was significantly stronger than connectivity between incongruent patches (horizontal-vertical), compared to placebo. The difference between congruent and incongruent connectivity was greater under LSD (Cohen's d=1.6), suggesting that psychedelic imagery involves transient local retinotopic activation similar to that from visual stimulation.
UNC Libraries
April 22, 2020
Peter J. Hellyer, Luke T. Williams, Ben Sessa et al.
1 citation
Lysergic acid diethylamide (LSD) in microgram doses produces profound, sometimes life-changing experiences and is a uniquely powerful psychoactive substance. In the first modern neuroimaging study of LSD, marked changes in brain blood flow, electrical activity, and network communication patterns were observed. These changes correlated strongly with the drug's hallucinatory and consciousness-altering properties. The findings have implications for understanding the neurobiology of consciousness and for potential applications of LSD in psychological research.