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Robert Leech

Department of Neuroimaging, Institute of Psychiatry, Psychology and Neuroscience, King's College, London WC2R 2LS, UK.

14 papers in the library · 4,129 citations · publishing 2012-2026

Papers

The entropic brain: a theory of conscious states informed by neuroimaging research with psychedelic drugs

Frontiers in Human Neuroscience January 1, 2014 Robin Carhart‐Harris, Robert Leech, Peter J. Hellyer et al. 1,289 citations

Entropy, a measure of uncertainty or disorder, is applied to brain function and consciousness, focusing on the psychedelic state induced by psilocybin. The psychedelic state is considered a primary or primitive state of consciousness, characterized by elevated entropy in brain function, including a greater repertoire of functional connectivity motifs that form and fragment over time. This suggests primary states may exhibit criticality, a transition zone between order and disorder. Normal waking consciousness suppresses entropy, operating just below criticality, which constrains cognition and enables metacognitive functions like reality-testing and self-awareness. Entry into primary states involves collapse of default-mode network activity and decoupling from medial temporal lobes. These hypotheses can be tested by comparing brain activity in REM sleep, early psychosis, normal waking consciousness, and anesthesia.

Neural correlates of the psychedelic state as determined by fMRI studies with psilocybin

Proceedings of the National Academy of Sciences January 23, 2012 Alessandro Colasanti, Robin J. Tyacke, Robert Leech et al. 1,191 citations

Psychedelic drugs like psilocybin, found in magic mushrooms, produce profound changes in consciousness by decreasing activity and connectivity in key brain hub regions. Using functional MRI, researchers observed that psilocybin reduced cerebral blood flow and BOLD signal, especially in the thalamus, anterior cingulate cortex (ACC), and posterior cingulate cortex (PCC). Decreased activity in the ACC and medial prefrontal cortex (mPFC) predicted the intensity of subjective psychedelic effects. Psilocybin also reduced positive coupling between the mPFC and PCC. These findings suggest that psychedelics work by dampening the brain's connector hubs, leading to a state of unconstrained cognition.

Enhanced repertoire of brain dynamical states during the psychedelic experience

Human Brain Mapping July 3, 2014 Enzo Tagliazucchi, Robin Carhart‐Harris, Robert Leech et al. 423 citations

Psilocybin, the active compound in magic mushrooms, increases the variability and range of brain activity and connectivity. Using fMRI, fifteen healthy volunteers were scanned before, during, and after receiving psilocybin or a placebo. Psilocybin raised the variability of blood-oxygen-level-dependent signals in the hippocampi and anterior cingulate cortex. Changes in the spectral behavior of brain signals were limited to higher-order networks, including the default mode, executive control, and dorsal attention networks. The brain also explored a wider repertoire of connectivity states after psilocybin than under control conditions. These findings help explain the unconstrained, hyper-associative quality of consciousness in the psychedelic state.

The effects of psilocybin and MDMA on between-network resting state functional connectivity in healthy volunteers

Frontiers in Human Neuroscience May 27, 2014 Leor Roseman, Robert Leech, Amanda Feilding et al. 293 citations

Psychedelic drugs like psilocybin and MDMA perturb consciousness in distinct ways, offering a tool to study brain mechanisms underlying conscious states. In placebo-controlled studies, psilocybin increased resting-state functional connectivity between brain networks, making them less differentiated, while decreasing connectivity between visual and sensorimotor networks. MDMA produced less marked changes in between-network connectivity, suggesting that the extensive network alterations under psilocybin may be unique to classic psychedelics and relate to their profound effects on consciousness. This analytical approach could help characterize other altered conscious states.

Functional Connectivity Measures After Psilocybin Inform a Novel Hypothesis of Early Psychosis

Schizophrenia Bulletin October 6, 2012 Robin Carhart‐Harris, Robert Leech, David Erritzøe et al. 267 citations

Psilocybin, a classic psychedelic, increases functional connectivity between the default-mode network (DMN) and task-positive network (TPN), reducing the normal orthogonality between these networks. In 15 healthy volunteers, intravenous psilocybin (vs placebo) during resting-state fMRI scans led to greater DMN-TPN connectivity, a pattern also seen in psychosis and meditative states. Thalamocortical connectivity remained unchanged, suggesting it relates to arousal rather than the separateness of internal versus external focus. The findings support psilocybin as a model for early psychosis, where compromised DMN-TPN orthogonality may explain phenomenological overlaps.

Implications for psychedelic-assisted psychotherapy: functional magnetic resonance imaging study with psilocybin

The British Journal of Psychiatry January 27, 2012 Robin Carhart‐Harris, Robert Leech, Tom A. Williams et al. 241 citations

Psilocybin, a classic psychedelic drug, may enhance the vividness and visual imagery of positive autobiographical memories. In a small study of ten healthy participants, functional magnetic resonance imaging scans showed that under psilocybin, compared to placebo, recollection of positive memories produced additional visual and sensory cortical activations in the late phase of recall. Participants also rated memories as more vivid and visually rich after psilocybin, and higher vividness correlated with greater subjective wellbeing at follow-up. These findings suggest psilocybin could be useful in psychotherapy for facilitating recall of salient memories or reversing negative cognitive biases.

Human brain effects of DMT assessed via EEG-fMRI.

Proceedings of the National Academy of Sciences of the United States of America March 28, 2023 Christopher Timmermann, Leor Roseman, Sharad Haridas et al. 217 citations

Intravenous DMT, a potent psychedelic and serotonin 2A receptor agonist, profoundly alters brain function in healthy volunteers. In a placebo-controlled study with 20 participants, multimodal neuroimaging (EEG-fMRI) showed that DMT robustly increases global functional connectivity, disrupts and desegregates brain networks, and compresses the principal cortical gradient. These changes overlapped with brain regions rich in serotonin 2A receptors and associated with human-specific psychological functions. EEG and fMRI measures correlated, linking neurophysiological changes to network-level effects. The findings indicate DMT predominantly acts on the brain's transmodal association cortex, the evolutionarily recent area tied to advanced cognition and high 5-HT2A receptor density.

The Effects of Acutely Administered 3,4-Methylenedioxymethamphetamine on Spontaneous Brain Function in Healthy Volunteers Measured with Arterial Spin Labeling and Blood Oxygen Level–Dependent Resting State Functional Connectivity

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.

Effects of LSD on music-evoked brain activity

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.

LSD alters eyes-closed functional connectivity within the early visual cortex in a retinotopic fashion

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.

How to set up a psychedelic study: Unique considerations for research involving human participants.

Neuroscience and biobehavioral reviews July 1, 2026 Marcus J Glennon, Catherine I V Bird, Prateek Yadav et al. 2 citations

Setting up a psychedelic research study involves a long, arduous, and Kafkaesque process with many unstandardised challenges. These complexities challenge existing assumptions about psychiatric prescribing, the placebo effect, and definitions of selfhood. This review brings together major UK psychedelic research teams to formalise these unique considerations, addressing sociocultural, political, legal, pharmacological, safety, study design, and experiential facets. It identifies continuing areas of debate and provides a practical, experience-based guide with recommendations for policymakers and future researchers intending to set up a psychedelic study or clinical trial.

How to set up a psychedelic study: Unique considerations for research involving human participants

arXiv Preprint Archive March 28, 2025 Marcus J. Glennon, Catherine I. V. Bird, Prateek Yadav et al.

Setting up a psychedelic study is a long and complex process that presents unique challenges not yet standardized. This review brings together major UK research teams to formalize these considerations, identify ongoing debates, and provide a practical guide for researchers and policymakers. It addresses challenges to existing assumptions about psychiatric prescribing, the placebo effect, and definitions of selfhood. The paper can be read end-to-end or used as a manual with sections for specific needs.

Fine-tuning neural excitation/inhibition for tailored ketamine use in treatment-resistant depression

arXiv Preprint Archive February 4, 2021 Erik D. Fagerholm, Robert Leech, Steven Williams et al.

Ketamine rapidly reduces depressive symptoms in treatment-resistant major depressive disorder. Using brain imaging and dynamic causal modeling, researchers analyzed neural excitation/inhibition interactions in the primary somatosensory cortex of 18 unmedicated patients and 18 healthy controls during a somatosensory task. Patients were scanned at baseline, 6-9 hours after ketamine infusion, and 6-9 hours after placebo. A shift in neural dynamics toward a stable region of the Poincaré diagram—requiring increased excitatory and inhibitory coupling—predicted symptom improvement specifically after ketamine, not placebo. This drug-specific neural shift may serve as a biomarker for treatment response.

Enhanced repertoire of brain dynamical states during the psychedelic experience

arXiv Preprint Archive May 26, 2014 Enzo Tagliazucchi, Robin Carhart-Harris, Robert Leech et al.

Psilocybin, the active compound in magic mushrooms, dramatically expands the brain's repertoire of connectivity states, revealing how consciousness can be altered. Using advanced brain imaging, researchers tracked neural activity before and after psilocybin administration. Results showed increased signal variability in memory and emotion-processing regions, while higher brain networks displayed enhanced flexibility in their communication patterns.