Journal of Neuroscience
September 18, 2013
Matthew J. Brookes, David Errtizoe, Ben Sessa et al.
501 citations
Psychedelic drugs like psilocybin produce profound changes in consciousness by desynchronizing ongoing oscillatory rhythms in the cortex. Using magnetoencephalography in healthy participants, psilocybin reduced spontaneous cortical oscillatory power from 1 to 50 Hz in posterior association cortices and from 8 to 100 Hz in frontal association cortices, with large decreases in default-mode network areas. Low-level visually induced and motor-induced gamma-band oscillations were unaffected, suggesting some basic oscillatory activity is preserved. Dynamic causal modeling indicated that posterior cingulate cortex desynchronization results from increased excitability of deep-layer pyramidal neurons rich in 5-HT 2A receptors.
Psychological Medicine
February 5, 2016
Robin Carhart‐Harris, Mendel Kaelen, Mark Bolstridge et al.
301 citations
A single intravenous dose of LSD (75 µg) in 20 healthy volunteers produced robust acute psychological effects, including heightened mood and elevated scores on a measure of psychosis-like symptoms. Two weeks later, participants showed increased optimism and trait openness compared to after placebo, with no changes in delusional thinking. The findings suggest that psychedelics can acutely induce psychosis-like symptoms yet improve psychological wellbeing in the mid to long term. The authors propose that acute mood changes stem from a more fundamental modulation of cognition, and that increased cognitive flexibility from serotonin 2A receptor stimulation promotes emotional lability during intoxication and leaves a lasting loosened cognition conducive to improved wellbeing.
Biological Psychiatry
January 10, 2014
Robin Carhart‐Harris, Kevin Murphy, Robert Leech et al.
182 citations
The medial temporal lobes (MTLs) are specifically involved in how MDMA works in the brain, though more research is needed to understand how the drug's characteristic subjective effects emerge from its modulation of spontaneous brain activity.
The International Journal of Neuropsychopharmacology
December 17, 2013
Robin Carhart‐Harris, Matthew B. Wall, David Erritzøe et al.
110 citations
MDMA (ecstasy) makes recalling favorite autobiographical memories feel more vivid, emotionally intense, and positive, while making recall of worst memories feel less negative. In a double-blind, placebo-controlled fMRI study with 19 participants who had prior MDMA experience, 100 mg of MDMA altered brain activity during memory recall: it increased activation in the fusiform gyrus and somatosensory cortex for favorite memories and decreased activation in the left anterior temporal cortex for worst memories. These neural changes suggest MDMA creates a positive emotional bias, which may explain why it helps patients revisit traumatic memories during psychotherapy for PTSD.
Language Cognition and Neuroscience
August 11, 2016
Neiloufar Family, David Vinson, Gabriella Vigliocco et al.
53 citations
LSD alters cognition by expanding the breadth of semantic activation. In a picture-naming task with ten participants, LSD reduced accuracy and altered error correction patterns compared to placebo, consistent with an increased spread of semantic activation. These effects align with a generalized entropic effect on the mind. The authors recommend future studies include direct neuroimaging and more naturalistic measures of semantic processing.