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Daniel J. Hauke

University College London

3 papers in the library · 43 citations · publishing 2023-2025

Papers

The effect of lysergic acid diethylamide (LSD) on whole-brain functional and effective connectivity

Neuropsychopharmacology April 25, 2023 Peter Bedford, Daniel J. Hauke, Zheng Wang et al. 43 citations

Lysergic acid diethylamide (LSD) predominantly strengthens interregional connections and reduces self-inhibition across the brain, except in occipital and subcortical regions where connections weaken and self-inhibition increases. These patterns suggest LSD perturbs the brain's excitation/inhibition balance. Whole-brain effective connectivity, assessed via regression dynamic causal modelling of resting-state fMRI data from 45 participants in two placebo-controlled trials, discriminated LSD from placebo with 91.11% accuracy and correlated with global subjective effects, indicating potential for decoding subjective experiences.

Ketamine and Psilocybin Differentially Impact Sensory Learning During the Mismatch Negativity

bioRxiv (Cold Spring Harbor Laboratory) November 7, 2025 Gabrielle Allohverdi, Milad Soltanzadeh, André Schmidt et al. preprint

Ketamine and psilocybin, two hallucinogenic compounds being explored as treatments for major depressive disorder, affect sensory learning in the brain differently. By combining computational modeling with electroencephalography (EEG) data from a prior experiment, researchers analyzed how these drugs alter the brain's processing of unexpected sounds during an auditory task. Ketamine produced a larger reduction in the influence of sensory precision between 207 and 316 milliseconds after a sound, peaking at 277 milliseconds in frontal central brain regions, while psilocybin showed no significant effect in that measure. Both drugs reduced the expression of belief precision between 160 and 184 milliseconds, peaking at 172 milliseconds.

Ketamine and Psilocybin Differentially Impact Sensory LearningDuring the Mismatch Negativity

Research Square September 26, 2024 Shona G. Allohverdi, Milad Soltanzadeh, André Schmidt et al.

Ketamine and psilocybin affect sensory learning in the brain through different neural mechanisms. By combining computational modeling with EEG data from a previous study, researchers analyzed how these drugs alter the brain's processing of prediction errors during an auditory task. Ketamine produced a larger reduction in sensory precision from 207 to 316 milliseconds after sounds, peaking at 277 milliseconds in frontal central brain regions, while psilocybin showed no significant effect on this measure. Both drugs reduced belief precision between 160 to 184 milliseconds, peaking at 172 milliseconds. For higher-level volatility prediction errors, ketamine reduced expression while psilocybin had no effect at 312 milliseconds. These distinct effects could inform tailored therapies for major depressive disorder.