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Pablo Mallaroni

Department of Neuropsychology and Psychopharmacology, Faculty of Psychology and Neuroscience, Maastricht University, Maastricht, Netherlands.

23 papers in the library · 250 citations · publishing 2022-2026

Papers

Psilocybin induces acute and persisting alterations in immune status in healthy volunteers: An experimental, placebo-controlled study

Brain Behavior and Immunity September 7, 2023 Natasha L. Mason, Attila Szabó, Kim P. C. Kuypers et al. 83 citations

A single dose of psilocybin (0.17 mg/kg) in 60 healthy participants immediately reduced the pro-inflammatory cytokine tumor necrosis factor-α (TNF-α), while interleukin-1β, interleukin-6 (IL-6), and C-reactive protein (CRP) were unchanged. Seven days later, TNF-α returned to baseline, but IL-6 and CRP were persistently reduced. Greater reductions in IL-6 and CRP at seven days correlated with more positive mood and social effects. Acute TNF-α reductions linked to lower hippocampal glutamate. Psilocybin did not significantly alter the stress response to a psychosocial stressor. The findings suggest psilocybin has persisting anti-inflammatory effects that may relate to its therapeutic benefits.

Assessment of the Acute Effects of 2C‐B vs. Psilocybin on Subjective Experience, Mood, and Cognition

Clinical Pharmacology & Therapeutics May 30, 2023 Pablo Mallaroni, Riccardo Paci, Sabrina Ritscher et al. 34 citations

2,5‐dimethoxy‐4‐bromophenethylamine (2C‐B), a hallucinogen derived from mescaline, produces psychedelic effects of moderate depth, shorter in duration than psilocybin. In a double‐blind, placebo‐controlled study of 22 healthy participants with prior psychedelic experience, 20 mg of 2C‐B elicited alterations of waking consciousness, though psilocybin (15 mg) caused greater dysphoria, subjective impairment, auditory alterations, and ego dissolution. Both compounds equally slowed psychomotor performance and impaired spatial memory compared with placebo, and neither produced empathogenic effects on the Multifaceted Empathy Test. 2C‐B raised blood pressure transiently, similar to psilocybin, and its effects largely resolved within six hours.

The unique neural signature of your trip: Functional connectome fingerprints of subjective psilocybin experience

Network Neuroscience November 1, 2023 Juan Carlos Farah, Pablo Mallaroni, Enrico Amico et al. 21 citations

Functional connectomes become more idiosyncratic under psilocybin, with greater dissimilarity between individuals than under placebo. While idiosyncratic features in placebo subjects appear mainly in the frontoparietal network, under psilocybin they concentrate in the default mode network (DMN). A DMN-focused pattern predicts subjective psilocybin experience, marked by reduced within-DMN and DMN-limbic connectivity and increased connectivity between the DMN and attentional systems. These findings link psilocybin's brain effects to subjective experience and demonstrate the value of brain-fingerprinting in pharmacological neuroimaging.

Shared functional connectome fingerprints following ritualistic ayahuasca intake.

NeuroImage January 1, 2024 Pablo Mallaroni, Natasha L Mason, Lilian Kloft et al. 17 citations

Brain functional connectomes are unique fingerprints that persist across mental states, but their stability under altered states is unknown. After collective ayahuasca intake in 21 Santo Daime members, 7T fMRI showed reduced idiosyncrasy in static and dynamic functional connectivity, with a spatiotemporal reallocation of keypoint edges. Interindividual differences in higher-order connectivity motifs predicted perceptual drug effects, demonstrating that individualized connectivity markers can trace a subject's functional connectome across altered states of consciousness.

Dynamic Functional Hyperconnectivity After Psilocybin Intake Is Primarily Associated With Oceanic Boundlessness.

Biological psychiatry. Cognitive neuroscience and neuroimaging July 1, 2024 Sepehr Mortaheb, Larry D Fort, Natasha L Mason et al. 15 citations

Psilocybin produces profound alterations in both brain connectivity and subjective experience. In a randomized study, healthy volunteers received psilocybin or placebo and underwent ultrahigh field 7T fMRI scanning during the peak drug effect. Psilocybin caused widespread increases in averaged brain functional connectivity and a recurrent hyperconnected brain pattern with low blood oxygen level-dependent signal amplitude, suggesting heightened cortical arousal. This hyperconnected pattern was linked to feelings of oceanic boundlessness and visionary restructuralization. The brain's tendency to enter this hyperconnected-hyperarousal state may underlie the variant mental associations characteristic of the psychedelic experience.

Altered State of Consciousness and Mental Imagery as a Function of N, N-dimethyltryptamine Concentration in Ritualistic Ayahuasca Users

Journal of Cognitive Neuroscience January 1, 2023 Johannes G Ramaekers, Pablo Mallaroni, Lilian Kloft et al. 15 citations

In members of the Santo Daime church who regularly consume ayahuasca in a ritual setting, the brew's main psychoactive compound DMT drives feelings of oceanic boundlessness, visual restructuring, and ego dissolution, with these effects correlating with peak DMT concentration in the blood. However, measures of mental imagery—including visual perspective shifting, vividness of imagery, and associative thinking—did not noticeably differ between sober and ayahuasca conditions, though subjective cognitive flexibility was lower under ayahuasca. Two mental imagery measures (perspective shifts and cognitive flexibility) correlated with peak DMT levels. Long-term ayahuasca use may produce compensatory or neuroadaptive effects that dampen the acute impact on mental imagery.

Metabolomics and integrated network analysis reveal roles of endocannabinoids and large neutral amino acid balance in the ayahuasca experience

Biomedicine & Pharmacotherapy March 24, 2022 Francisco Madrid-Gambín, Àlex Gomez‐gómez, Arnau Busquets-García et al. 14 citations

Consumption of ayahuasca increases N-acyl-ethanolamine endocannabinoids, decreases 2-acyl-glycerol endocannabinoids, and alters several large-neutral amino acids (LNAAs) in human plasma. Most LNAAs were inversely associated with nine of eleven subscales of the 5-Dimension Altered States of Consciousness Rating Scale, except tryptophan, which was positively associated. Several endocannabinoids and hexosylceramides were directly associated with ayahuasca alkaloids. Enrichment analysis confirmed dysregulation in pathways involved in serotonin and dopamine synthesis. A crosstalk between circulating LNAAs and subjective effects is suggested, independent of alkaloid concentrations, providing insights into the metabolic fingerprint and mechanism of action underlying ayahuasca experiences.

Cortical structural differences following repeated ayahuasca use hold molecular signatures

Frontiers in Neuroscience October 5, 2023 Pablo Mallaroni, Lilian Kloft, Natasha L. Mason et al. 8 citations

Repeated ayahuasca use is associated with a spatially distributed pattern of brain structural changes: sensorimotor areas become more distinct from surrounding regions while transmodal areas become less distinct. These changes correlate with the expression of genes for 5-HT2A receptors and other targets of ayahuasca, as well as with genes for transcription factors and immediate early genes previously linked to psychedelic-induced neuroplasticity in animal studies. The findings suggest that molecular mechanisms of psychedelic action may scale up to large-scale brain organization in living humans, potentially helping to explain behavioral differences in experienced users.

Psilocybin and 2C-B at Encoding Distort Episodic Familiarity.

Biological psychiatry. Cognitive neuroscience and neuroimaging October 1, 2024 Manoj K Doss, Pablo Mallaroni, Natasha L Mason et al. 7 citations

Two psychedelics, psilocybin and 2C-B, impair the encoding of detailed recollections and distort feelings of familiarity for emotional memories. In a double-blind, placebo-controlled study with 20 participants, both drugs reduced estimates of recollection and familiarity the next day, but increased false alarms based on familiarity, especially for negative and positive images. The drugs also tended to impair metamemory for negative and neutral memories while enhancing it for positive ones, though these effects were less reliable. The similar pattern across both substances suggests a shared neurocognitive mechanism among psychedelics that may underlie other phenomena.

Dynamic Functional Hyperconnectivity after Psilocybin Intake is Primarily Associated with Oceanic Boundlessness

bioRxiv (Cold Spring Harbor Laboratory) September 18, 2023 Sepehr Mortaheb, Larry D. Fort, Natasha L. Mason et al. 7 citations preprint

Psilocybin increases functional connectivity across the brain and induces a recurrent hyperconnected pattern with low BOLD signal amplitude, suggesting heightened cortical arousal. These brain dynamics are linked to feelings of oceanic boundlessness and visionary restructuralization, as measured by the 5-Dimensional Altered States of Consciousness Rating Scale. The brain's tendency to enter this hyperconnected-hyperarousal pattern under psilocybin may enable variant mental associations. For the first time, these findings connect brain dynamics with phenomenological alterations, offering new insights into the neurophenomenology and neurophysiology of the psychedelic state.

Psilocybin induces acute and persisting alterations in immune status and the stress response in healthy volunteers

medRxiv November 1, 2022 Natasha L. Mason, Attila Szabó, Kim P. C. Kuypers et al. 6 citations preprint

Psilocybin immediately reduced concentrations of the pro-inflammatory cytokine tumor necrosis factor-α (TNF-α), while other inflammatory markers (interleukin-1α, IL-1β, IL-6, and C-reactive protein) remained unchanged. Seven days later, TNF-α returned to baseline, but IL-6 and CRP were persistently reduced in the psilocybin group. Changes in immune profile were linked to acute neurometabolic activity: reductions in TNF-α were associated with lower hippocampal glutamate concentrations. Greater reductions in IL-6 and CRP at seven days correlated with persisting positive mood and social effects. Psilocybin also blunted the cortisol response to a psychosocial stressor compared to placebo.

Ayahuasca enhances the formation of hippocampal-dependent episodic memory without impacting false memory susceptibility in experienced ayahuasca users: An observational study.

Journal of psychopharmacology (Oxford, England) April 1, 2025 Manoj K Doss, Lilian Kloft, Natasha L Mason et al. 5 citations

In experienced users, ayahuasca acutely enhances recollection-based memory—the ability to recall specific details—without increasing false memories or affecting familiarity-based memory, a feeling of knowing. In an observational study of 24 Santo Daime members who had consumed ayahuasca over 500 times on average, participants completed a false memory task before and after taking a self-selected church dose. After ayahuasca, hit rates, memory accuracy, and recollection improved, while familiarity and false memory remained unchanged. The authors suggest that β-carboline activity in the brew may account for this recollection enhancement, which contrasts with past psychedelic research showing impaired recollection. Practice effects could not be ruled out, but multiple measures of false memory and metamemory did not improve across sessions.

Metabolomic profiling of cannabis use and cannabis intoxication in humans.

Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology May 1, 2025 Francisco Madrid-Gambin, Noemí Haro, Natasha L Mason et al. 4 citations

The metabolome—the collection of small molecules in blood—differs between occasional and chronic cannabis users both when sober and after acute THC intoxication. Fourteen metabolites, mainly involved in endocannabinoid and amino acid metabolism, distinguished the two groups with 80% accuracy. During intoxication, occasional users showed attentional impairment and elevated subjective high, accompanied by increases in organic acids, β-hydroxybutyrate, and ceramides; chronic users did not show these changes. The findings demonstrate that metabolomic profiling can identify metabolic alterations specific to the neurocognitive state of cannabis intoxication and to cannabis use frequency.

Ritualistic use of ayahuasca enhances a shared functional connectome identity with others

bioRxiv (Cold Spring Harbor Laboratory) October 11, 2022 Pablo Mallaroni, Natasha L. Mason, Lilian Kloft et al. 4 citations preprint

Brain functional connectomes are unique and reliable identifiers of individuals, but it was unknown whether these 'fingerprints' persist during altered states of consciousness. Ayahuasca, a serotonergic psychedelic, disrupts functional connectivity. In a within-subject study using 7T fMRI, 21 members of the Santo Daime church were scanned after collective ayahuasca intake. Connectome fingerprinting revealed a shared functional space and a spatiotemporal reallocation of key edges. Differences in higher-order functional connectivity motifs predicted perceptual drug effects, showing that individualized connectivity markers can trace a subject's functional connectome across altered states.

A virtual clinical trial of psychedelics to treat patients with disorders of consciousness

bioRxiv (Cold Spring Harbor Laboratory) August 19, 2024 Naji Alnagger, Paolo Cardone, Charlotte Martial et al. 3 citations preprint

Disorders of consciousness, such as unresponsive wakefulness syndrome (UWS) and minimally conscious state (MCS), have few treatments. Using whole-brain computational models built from individual patients' fMRI and diffusion-weighted imaging data, this virtual clinical trial simulated the effects of LSD and psilocybin. The psychedelics shifted the brains of patients with disorders of consciousness closer to a critical dynamical state, with a larger effect in MCS patients. In UWS patients, the treatment response depended on structural connectivity, whereas in MCS patients it aligned with baseline functional connectivity. These results provide a computational foundation for considering psychedelics in treating disorders of consciousness and highlight the role of computational modeling in drug discovery and personalized medicine.

A Virtual Clinical Trial of Psychedelics to Treat Patients With Disorders of Consciousness

Advanced Science November 20, 2025 Paolo Cardone, Charlotte Martial, Yonatan Sanz Perl et al. 2 citations

Simulated administration of LSD and psilocybin in computational models of patients with disorders of consciousness (DoC), including unresponsive wakefulness syndrome (UWS) and minimally conscious state (MCS), shifted brain activity closer to criticality—the phase transition between order and chaos. The effect was greater in MCS patients. In UWS patients, the treatment response correlated with structural connectivity, while in MCS patients it aligned with baseline functional connectivity. These results provide a computational foundation for using psychedelics in DoC treatment and highlight the potential role of computational modeling in drug discovery and personalized medicine.

The forgotten psychedelic: Spatiotemporal mapping of brain organisation following the administration of 2C-B and psilocybin

bioRxiv (Cold Spring Harbor Laboratory) October 22, 2024 Pablo Mallaroni, S. Parker Singleton, Natasha L. Mason et al. 2 citations preprint

A double-blind, placebo-controlled crossover study with 22 healthy volunteers compared the acute brain effects of the psychedelic phenethylamine 2C-B (20 mg) and the tryptamine psilocybin (15 mg) using 7T resting-state functional MRI. Both compounds reduced connectivity within brain networks and broadly increased connections between networks and between subcortical and cortical regions. Compared to psilocybin, 2C-B caused less reduction in between-network connectivity but increased connectivity in transmodal regions. Both drugs similarly increased brain complexity. The neural effects aligned with differences in monoaminergic and serotonergic receptor binding beyond 5-HT2A, suggesting 2C-B's distinct pharmacology shapes its functional brain dynamics.

Assessment of the acute effects of 2C-B vs psilocybin on subjective experience, mood and cognition

bioRxiv (Cold Spring Harbor Laboratory) February 16, 2023 Pablo Mallaroni, Natasha L. Mason, Johannes T. Reckweg et al. 2 citations preprint

2C-B, a hallucinogenic phenethylamine derived from mescaline, produces subjective psychedelic effects that are shorter in duration and milder than those of psilocybin. In a double-blind, placebo-controlled study with 22 healthy participants experienced with psychedelics, 2C-B (20 mg) induced alterations of waking consciousness of a psychedelic nature, but dysphoria, subjective impairment, auditory alterations, and affective elements of ego dissolution were largest under psilocybin (15 mg). Both compounds caused equivalent psychomotor slowing and spatial memory impairments compared to placebo, and neither produced empathogenic effects on the Multifaceted Empathy Test. 2C-B also induced transient pressor effects similar to psilocybin, with self-reported effects largely resolving within 6 hours. These findings support categorizing 2C-B as a subjectively 'lighter' psychedelic.

The Unique Neural Signature of Your Trip: Functional Connectome Fingerprints of Subjective Psilocybin Experience

bioRxiv (Cold Spring Harbor Laboratory) March 21, 2023 Hanna M. Tolle, Juan Carlos Farah, Pablo Mallaroni et al. 1 citation preprint

Functional connectomes (FCs) become more idiosyncratic under the psychedelic psilocybin than under placebo, with idiosyncratic features concentrating in the default-mode network (DMN). An FC pattern predicting subjective psilocybin experience shows reduced within-DMN and DMN-limbic connectivity, alongside increased DMN-attentional system connectivity. These results bridge psilocybin's brain effects and behavior, demonstrating the value of brain-fingerprinting in pharmacological neuroimaging.

Sex Differences in Acute Responses to Psychedelics: Evidence for Greater Subjective Intensity and Impairment in Female Participants

bioRxiv (Cold Spring Harbor Laboratory) July 13, 2026 Natasha L. Mason, Eline Chm Haijen-Bongers, Kim P. C. Kuypers et al.

Female participants reported more intense subjective effects from psilocybin, 2C-B, and LSD than male participants, including feeling more strongly under the drug's influence, reduced vigilance, and impaired control and cognition, with medium-to-large effects consistent across the three drugs. No sex differences were found in empathy measures or peak drug concentrations in blood. These findings suggest pharmacodynamic mechanisms—how the body responds to the drug—rather than pharmacokinetic differences in drug exposure explain the sex differences. The results have implications for dosing, informed consent, and safety monitoring in psychedelic research.

Brain-body integromics of the ayahuasca experience.

Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie June 1, 2026 Francisco Madrid-Gambin, Pablo Mallaroni, Noemí Haro et al.

The psychedelic state induced by ayahuasca arises from coordinated, system-level interactions between peripheral metabolism and brain network dynamics, rather than isolated neurochemical events. In 20 experienced ceremonial users, the subjective dimensions of oceanic boundlessness, visionary restructuralization, and auditory alterations covaried with circulating DMT and β-carbolines, shifts in lipid, amino acid, and energy metabolism, and reconfiguration of dorsal attention and default mode network connectivity. Shared features across these experiences were most strongly linked to endocannabinoid-related N-acylethanolamines, acylglycerols, and ceramides, extending beyond canonical serotonergic models to downstream lipid-signaling and metabolic processes. The findings offer translational insight into metabolic pathways that may modulate brain function and subjective response.

Spatiotemporal mapping of brain organisation following the administration of 2C-B and psilocybin

Molecular Psychiatry February 3, 2026 Pablo Mallaroni, S. Parker Singleton, Natasha L. Mason et al.

The psychedelic phenethylamine 2C-B produces less dysphoria and subjective impairment than the tryptamine psilocybin. In 22 healthy volunteers, 7 Tesla resting-state functional MRI mapped acute effects of matched doses of 20 mg 2C-B, 15 mg psilocybin, and placebo. Both compounds selectively reduced intranetwork static functional connectivity while broadly increasing between-network and subcortical-cortical connectivity. Compared to psilocybin, 2C-B showed less pronounced reductions in between-network dynamic connectivity variability but elevated transmodal static connectivity. Both increased brain complexity similarly. PET density modeling linked neural effects to differences in monoaminergic transporter and serotonergic receptor binding beyond 5-HT2A. Behavioral markers of psychedelic effects reflected decoupling of the transmodal axis of functional brain organization.

Unmixing the Psychedelic Connectome: Brain Network Traits of Psilocybin

November 17, 2025 Krishna Prasad Bhavaraju, Natasha L. Mason, Pablo Mallaroni et al. preprint

Psilocybin alters consciousness through multiple distinct neural processes rather than a single, uniform change in brain connectivity. Using a data-driven method called Connectome Independent Component Analysis on resting-state fMRI data from healthy volunteers, researchers identified separate functional connectivity traits. One trait was linked to the drug's physiological action, as its expression varied with plasma psilocin levels. A second, independent trait was associated with worse performance on a visual divergent thinking task. These results show the acute psilocybin state comprises co-occurring neural patterns, validating a decompositional approach to disentangle pharmacological and cognitive effects.