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Timothy Nest

4 papers in the library · 939 citations · publishing 2016-2026

Papers

Neural correlates of the LSD experience revealed by multimodal neuroimaging.

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.

Altered Insula Connectivity under MDMA.

Neuropsychopharmacology February 14, 2017 Ishan C Walpola, Timothy Nest, Leor Roseman et al. 50 citations

MDMA alters connectivity of the insula, a brain region involved in emotional and bodily awareness. The abstract reports changes in how the insula communicates with other brain areas under the drug's influence, suggesting a neural basis for MDMA's subjective and therapeutic effects. No specific direction, magnitude, or certainty of the connectivity changes is provided.

LSD Reconfigures Cortical Dynamics Through Faster Brain Rhythms and Increased Fractal Dimension

bioRxiv (Cold Spring Harbor Laboratory) January 29, 2026 Venkatesh Subramani, Timothy Nest, Annalisa Pascarella et al. 1 citation

LSD alters brain activity by increasing alpha and beta brain-wave frequencies while genuinely reducing oscillatory power, with these effects showing distinct cortical patterns. The drug also flattens the aperiodic 1/f spectral slope and increases neural signal fractality and complexity, particularly in sensory, language, emotion, and imagery-related networks, while sparing motor cortex. Machine learning identified peak-frequency shifts, aperiodic parameters, and complexity measures as key discriminators of the psychedelic state. Music did not amplify these neural signatures and showed a trend toward attenuation. These findings provide a comprehensive account of how LSD reorganizes large-scale human brain dynamics.

Neural correlates of the LSD experience revealed by multimodal neuroimaging

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.