Anxiety DisordersHealthy VolunteersSchizophreniaDepressive DisordersSubstance Use Disorders (SUD)Neuroimaging & Brain MeasuresPsilocybin

Emotions and brain function are altered up to one month after a single high dose of psilocybin

In an open‑label pilot with 12 healthy volunteers, a single high dose of psilocybin (25 mg/70 kg) produced transient reductions in negative affect and amygdala reactivity at one week, while increases in positive affect and reduced trait anxiety persisted at one month, accompanied by increased resting‑state functional connectivity. These preliminary results suggest psilocybin enhances emotional and neural plasticity and support targeting negative affect in therapeutic applications.

Authors

  • Roland Griffiths
  • Frederick Barrett
  • Nathan Sepeda

Published

Scientific Reports
individual Study

Abstract

Psilocybin is a classic psychedelic compound that may have efficacy for the treatment of mood and substance use disorders. Acute psilocybin effects include reduced negative mood, increased positive mood, and reduced amygdala response to negative affective stimuli. However, no study has investigated the long-term, enduring impact of psilocybin on negative affect and associated brain function. Twelve healthy volunteers (7F/5M) completed an open-label pilot study including assessments 1-day before, 1-week after, and 1-month after receiving a 25 mg/70 kg dose of psilocybin to test the hypothesis that psilocybin administration leads to enduring changes in affect and neural correlates of affect. One-week post-psilocybin, negative affect and amygdala response to facial affect stimuli were reduced, whereas positive affect and dorsal lateral prefrontal and medial orbitofrontal cortex responses to emotionally-conflicting stimuli were increased. One-month post-psilocybin, negative affective and amygdala response to facial affect stimuli returned to baseline levels while positive affect remained elevated, and trait anxiety was reduced. Finally, the number of significant resting-state functional connections across the brain increased from baseline to 1-week and 1-month post-psilocybin. These preliminary findings suggest that psilocybin may increase emotional and brain plasticity, and the reported findings support the hypothesis that negative affect may be a therapeutic target for psilocybin.

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Research Summary of 'Emotions and brain function are altered up to one month after a single high dose of psilocybin'

Editorial

βBlossom's Take

This paper is useful because it gives a rare longitudinal look at how one high dose of psilocybin may reach beyond the acute session into affect and resting-state connectivity. The small open-label design limits inference, but the combination of one-week and one-month follow-up makes the claim of transient emotional and neural plasticity more concrete than the usual short-window psychedelic study.

Introduction

Earlier research has shown that psilocybin, a classic 5-HT2A receptor partial agonist, can produce acute reductions in negative mood, increases in positive mood, and decreased amygdala responses to negative emotional stimuli, and small clinical studies suggest antidepressant and anti-addiction effects that can persist for months after one or a few administrations. However, the mechanisms that might underlie any enduring therapeutic effects remain unclear. Two candidate, potentially interacting mechanisms are modulation of negative affect (and related affective biases) and changes in large-scale brain network plasticity; both amygdala reactivity and anterior cingulate cortex (ACC) function figure prominently in models of mood and substance use disorders and in prior psychedelic neuroimaging findings. Barrett and colleagues therefore conducted an open-label, within-subjects pilot study to test whether a single high dose of psilocybin (25 mg/70 kg) produces enduring changes in affect, personality, task-evoked neural responses to emotional stimuli, and resting-state functional connectivity. Participants were assessed one day before, one week after, and one month after psilocybin using a battery of self-report affect and personality measures and functional MRI during three emotion tasks and resting state. The study aimed to determine whether post-acute changes in affect and brain function persist after drug elimination and could point to trans-diagnostic mechanisms relevant to mood and substance use disorders.

Methods

This was an open-label, within-subjects longitudinal pilot study with twelve healthy right-handed volunteers (7 female; mean age 32.1 ± 7.5 years). Inclusion required medical and psychiatric health (Structured Clinical Interview for DSM-IV), and exclusion criteria included MRI contraindications, personal or family history of psychotic or bipolar disorder, recent moderate-to-severe substance use disorder, and use of psychoactive medications. Participants reported limited lifetime hallucinogen use. The protocol included preparatory meetings with session monitors, a single supervised psilocybin administration session (25 mg/70 kg in a capsule), and post-session debriefing; safety monitoring (blood pressure, heart rate, staff ratings) occurred repeatedly over the roughly 7-hour session. Behavioural and questionnaire assessments targeted state and trait affect and personality. Questionnaires administered one day before, one week after, and one month after dosing included PANAS-X, POMS, DPES, DASS, and STAI. The Big Five Inventory and the Tellegen Absorption Scale were completed at screening and again at one month. Mixed-effects repeated-measures one-way ANOVAs evaluated changes in self-report measures, with Tukey correction for post-hoc pairwise comparisons; paired t-tests assessed personality change. Neuroimaging took place one day before, one week after, and one month after dosing on a Philips 3T scanner. Each session included three affective tasks (emotion discrimination, emotion recognition, and an emotional conflict Stroop) interleaved with eyes-open resting-state scans (two 8-minute runs, 16 minutes total). Task-based BOLD data were preprocessed (slice timing, motion correction, normalization, smoothing) and analysed focussing on four a priori ROIs: left and right amygdala and left and right ACC. First eigenvariates for each ROI were extracted and entered into subject-level GLMs with motion regressors and scrubbing; group-level one-way ANOVAs assessed time effects with Holm–Bonferroni correction for post-hoc comparisons. Whole-brain voxel-wise exploratory GLMs were also run (threshold p < 0.0005 uncorrected; cluster-forming p < 0.05 uncorrected). Resting-state data were preprocessed similarly, bandpass filtered (0.009–0.08 Hz), nuisance-regressed (including white matter/CSF eigenvectors and motion scrubbing), and parcellated with the Shen 268-node atlas. Static functional connectivity was computed as Pearson correlations between node time series, Fisher z-transformed, and one-sample t-tests (Bonferroni-corrected across 35,778 edges) identified reliable edges at each time point. Edges significant at any time point were then contrasted across time (paired t-tests). One subject was excluded from resting-state analyses for missing the 1-week scan. Network-level summaries were obtained by averaging edges within and between eight canonical networks defined from the Shen atlas.

Results

Self-report affect and personality: Several measures of negative affect and stress were reduced at one week post-psilocybin and moved back toward baseline by one month. Specifically, DASS stress, PANAS negative affect, STAI state anxiety, and POMS tension, depression, and total mood disturbance scores were significantly lower at 1 week versus baseline and tended to return toward baseline at 1 month. Trait anxiety was reduced at 1 month relative to baseline. Positive dispositional affect increased: DPES joy and content subscales showed a main effect of time (DPES joy F[2,20] = 6.03, p = 0.009, partial η2 = 0.36), with scores higher at both 1 week and 1 month than at baseline. Personality measures showed significant increases in conscientiousness (t = 2.33, p = 0.042, d = 0.738) and in absorption (TAS; t = 3.55, p = 0.005, d = 1.122) from baseline/screening to 1 month; other Big Five changes were numerical but not statistically emphasised. Emotion tasks and ROI fMRI: Performance in the emotion discrimination task was near ceiling at baseline (92.04% ± SEM 1.7%) and improved modestly to 94.7% (SEM 1.4%) at 1 week (t = 3.089, p = 0.006) and 94.1% (SEM 1.5%) at 1 month (t = 2.669, p = 0.014). No significant time-related changes in amygdala or ACC responses were observed for the emotion discrimination task, and whole-brain analyses were null. For the emotion recognition task, no whole-brain voxel-wise effects were found; supplementary materials report exploratory associations between self-report and amygdala change. In ROI analyses, the authors report decreased amygdala responses to emotional stimuli at 1 week post-psilocybin that rebounded by 1 month. Emotional conflict Stroop and whole-brain fMRI: Behavioural performance was at ceiling across sessions (98.9% ± SEM 0.21%) but a classic Stroop interference effect was evident (accuracy and response-time main effects, F[3,2575] = 5.704, p = 0.00069 for accuracy; F[3,2575] = 7.019, p = 0.00011 for response time). ROI analyses did not show amygdala or ACC effects for the Stroop contrasts. However, whole-brain voxel-wise analyses for the high-demand incongruent versus low-demand congruent contrast (CI > CC) revealed increased BOLD response from baseline to 1 week in dorsal lateral prefrontal cortex (DLPFC) and medial orbitofrontal cortex (MOFC), and from baseline to 1 month in somatosensory cortex and fusiform gyrus. Additionally, greater BOLD responses were observed at 1 week compared to 1 month in a mainly left-hemisphere network including inferior frontal gyrus, anterior insula, parietal lobule, and fusiform gyrus. Resting-state functional connectivity: Of 35,778 possible edges in the Shen atlas, 695 edges were significant (Bonferroni-corrected) for at least one time point. Overall connectivity strength increased from baseline to 1 week (38 edges showing greater connectivity, 10 showing less) and this pattern largely persisted at 1 month (29 edges greater, 18 edges less). Seven of the 29 edges that increased at 1 month overlapped with those that increased at 1 week, and these were distributed across lobes and networks. Changes did not follow a clear, single-network pattern; numerically there were more increases than decreases both within and between networks at 1 week and 1 month. Measures of dispersion of connectivity strengths within and between networks were unchanged across time points.

Discussion

The authors highlight four main sustained effects following a single high dose of psilocybin in this healthy volunteer sample: an acute reduction in negative affect at 1 week that returned toward baseline at 1 month; reduced amygdala responsiveness to emotional stimuli at 1 week with a rebound by 1 month; increased recruitment of reward-learning, attention, and decision-making regions (DLPFC and MOFC) during high-demand emotional conflict at 1 week, with other sensory and fusiform increases evident at 1 month; and widespread increases in resting-state functional connectivity at both post-dose time points. The investigators interpret these findings as more consistent with a transient neuroplastic period than with residual pharmacology, noting that psilocybin and its active metabolite have short half-lives (roughly 3 hours) and that 5-HT2A receptor internalisation would be expected to resolve within days. In terms of mechanism, increased DLPFC and MOFC recruitment during emotionally conflicting trials is discussed as a possible top-down modulation of affect — DLPFC is implicated in executive control and emotion regulation and can down-regulate amygdala activity, while anterior MOFC may signal abstract positive value and support altered reward learning. The authors therefore propose that greater top-down control could shift the salience balance between positive and negative information, contributing to reduced negative affect and increased positive affect. Resting-state connectivity increases across networks are framed as consistent with other reports of post-acute network change and with preclinical evidence for psychedelics promoting neuritogenesis and spinogenesis, suggesting a domain-general cortical plasticity process. The authors acknowledge limitations that temper conclusions: the small sample size, absence of placebo or active-control conditions, open-label design, and limited pre-dosing baseline assessments leave open the possibility of expectancy effects, demand characteristics, or practice/habituation influences. They note, however, that several effects (for example, the return of negative affect and task-based fMRI effects toward baseline at 1 month) are not easily explained by simple practice effects. Differences between the current healthy-volunteer findings and prior reports in patient samples are emphasised as potentially driven by population differences and methodological variations (e.g. eyes-open versus eyes-closed resting-state, scan length). Finally, the authors suggest that observed short-term reductions in negative affect and increases in connectivity point to negative affect as a plausible trans-diagnostic target for psilocybin and that psilocybin may initiate a time-limited neuroplastic window which could be harnessed in clinical interventions. Replication in larger samples with rigorous control conditions is recommended.

Conclusion

Barrett and colleagues conclude that a single high dose of psilocybin produced preliminary evidence of sustained shifts in affect and in neural correlates of affective processing that extended beyond the acute pharmacological window. The authors propose that these changes—particularly reductions in negative affect and broad increases in functional connectivity—identify negative affect as a potential therapeutic target and are consistent with the hypothesis that psilocybin initiates a transient neuroplastic period that may facilitate longer-term emotional and cognitive change. They emphasise that these findings are preliminary and call for replication in larger, controlled studies.

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METHODS

Twelve volunteers (7 females, mean age 32.1 ± 7.5 years) took part in this open-label, within-subjects, longitudinal pilot study. Volunteers were included if they were right-handed, between the ages of 18-45, medically healthy (as determined by medical history, physical examination, an electrocardiogram, blood analysis, and urine testing for common drugs of abuse), and psychiatrically healthy (as determined by the Structured Clinical Interview for DSM-IV). Individuals were excluded for MRI contraindications (including past head trauma, claustrophobia, presence of certain implants, and/or non-removable ferrous metals) as well as potential psilocybin contraindications (personal or family histories of psychotic or bipolar disorder, history within past 5 years of moderate or severe substance use disorder, and taking medications with a psychoactive or CNS effect). A urine pregnancy test (for females) and a urine test for common drugs of abuse (for all participants) was required to be negative during screening and the morning of drug administration. The sample was racially homogenous (100% Caucasian), more than half (58.3%) were married at the time of their participation, 83.3% had earned a Bachelor's degree or higher, and all reported limited lifetime use of hallucinogens (median of 1, range 1-4 uses), with the most recent use occurring an average of 8.3 years ago. This study was registered at ClinicalTrials.gov (NCT02971605, registered on November 23, 2016). All participants provided informed consent in accordance with the Common Rule and the Declaration of Helsinki. All procedures were approved by the Johns Hopkins University School of Medicine Institutional Review Board, and participants were compensated a total of $240 upon completion of the study.

RESULTS

Main effects of time point were also observed on DPES joy (F[2,20] = 6.03, p = 0.009, η 2 p = 0.36), content (F [2,20]) demonstrated that DPES scores were significantly greater both 1 week and 1 month after psilocybin compared to baseline. The only significant changes observed in personality between baseline and 1 month post-psilocybin (Table) were in conscientiousness (t = 2.33, p = 0.042, d = 0.738) and absorption (t = 3.55, p = 0.005, d = 1.122). Descriptive statistics for all self-report measures are presented in Supplementary Information (Table). Exploratory associations between changes in self-report affect across time and changes in amygdala response across time in the emotion recognition task are also presented in Supplementary Information (Figs.). No effects were observed in whole-brain voxel-wise analysis of the emotion recognition task.

CONCLUSION

The current open-label pilot study identified four key sustained effects of a single high dose of psilocybin on affect and the neural correlates of affective processing. First, negative affect was decreased 1 week post-psilocybin and returned to baseline levels at 1 month post-psilocybin. Second, there were decreases in amygdala responses to emotional stimuli 1 week post-psilocybin that rebounded at 1 month post-psilocybin. Third, there were increased responses in reward-learning, attention, and decision-making circuits 1 week post-psilocybin, and increased responses in somatosensory and fusiform gyrus 1 month post-psilocybin, during high-demand incongruent trials in the emotional conflict Stroop task. Finally, there were global increases in functional connectivity at both 1 week and 1 month post-psilocybin. A notable feature of the current report is that the reported effects of psilocybin were observed well after psilocybin would have been eliminated from the body and beyond expected transient effects of receptor trafficking that may be occurring after psilocybin administration. The half-life of psilocybin and psilocin (the active metabolite of psilocybin) is roughly 3 hours, indicating that over 50 half-lives of the drug had passed before the 1 week time point, ensuring elimination of the drug from each participant. Further, while the 5-HT 2A receptor is known to internalize rapidly with both agonism and antagonism, it is thought to be re-expressed roughly 24-48 hours after internalization (in the absence of chronic engagement), and thus any transient changes in receptor dynamics related to psilocybin administration would be resolved by the 1 week time point. Rather than receptor trafficking or other residual pharmacological effects, the reported findings might better be explained by a neuroplastic period during which the neural processing of affective stimuli is altered. The sustained decreases in negative affective states and traits, increases in positive affective states and traits, and decreases in amygdala responses to emotional stimuli that were observed in this trial all resemble reported acute effects of psilocybin. The observed changes in MOFC, DLPFC, IFG, insula, parietal, and fusiform response to conflicting trials, however, are unexpected findings that may reveal a potential top-down mechanism underlying the sustained effects of psilocybin on affect and brain function. Each panel contains sagittal, coronal, and axial slices that display the significant clusters that were observed in the whole-brain general linear model analysis, with the in-plane coordinate for a given slice found in the top left-hand corner of each slice. Significant clusters in each slice are circled in yellow. CI: an incongruent Stroop trial that followed a congruent Stroop trial -this is a high-demand trial, as the trial involves both incongruent emotional information as well as a response-switch from responding to a congruent trial to responding to an incongruent trial; CC: a congruent Stroop trial that followed another congruent Stroop trial -this is a low-demand trial, as the trial involves congruent emotional stimuli and does not require response-switching from the previous trial.

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Emotions and brain function are altered up to one... — Research Summary & Context | Blossom