Neuroimaging & Brain MeasuresHealthy VolunteersPersonality & Trait FactorsPsilocybin

Lasting effects of a single psilocybin dose on resting-state functional connectivity in healthy individuals

In a small sample of 10 healthy volunteers, a single 0.2–0.3 mg/kg dose of psilocybin produced a significant decrease in executive control network resting-state functional connectivity at one week but not at three months. This transient ECN reduction predicted increased mindfulness at three months, suggesting short‑term ECN modulation during the psychedelic “afterglow” may mediate lasting psychological benefits.

Authors

  • Gitte Knudsen
  • Patrick Fisher
  • Dea Stenbæk

Published

Journal of Psychopharmacology
individual Study

Abstract

Background

Psilocybin is a psychedelic drug that has shown lasting positive effects on clinical symptoms and self-reported well-being following a single dose. There has been little research into the long-term effects of psilocybin on brain connectivity in humans.

Aims

Evaluate changes in resting-state functional connectivity (RSFC) at one-week and three-months after one psilocybin dose in 10 healthy psychedelic-naïve volunteers and explore associations between change in RSFC and related measures.

Methods

Participants received 0.2-0.3 mg/kg psilocybin in a controlled setting. Participants completed resting-state fMRI scans at baseline, one-week and three-months post-administration and [ 11 C]Cimbi-36 PET scans at baseline and one-week. We examined changes in within-network, between-network and region-to-region RSFC. We explored associations between changes in RSFC and psilocybin-induced phenomenology as well as changes in psychological measures and neocortex serotonin 2A receptor binding.

Results

Psilocybin was well tolerated and produced positive changes in well-being. At one-week only, executive control network (ECN) RSFC was significantly decreased (Cohen’s d=-1.73, p FWE =0.010). We observed no other significant changes in RSFC at one-week or three-months, nor changes in region-to-region RSFC. Exploratory analyses indicated that decreased ECN RSFC at one-week predicted increased mindfulness at three-months (r =-0.65).

Conclusions

These findings in a small cohort indicate that psilocybin affects ECN function within the psychedelic “afterglow” period. Our findings implicate ECN modulation as mediating psilocybin-induced, long-lasting increases in mindfulness. Although our findings implicate a neural pathway mediating lasting psilocybin effects, it is notable that changes in neuroimaging measures at three-months, when personality changes are observed, remain to be identified.

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Research Summary of 'Lasting effects of a single psilocybin dose on resting-state functional connectivity in healthy individuals'

Editorial

βBlossom's Take

This small imaging study is useful because it extends psilocybin research beyond the acute session and into the afterglow period, where longer-term changes are often assumed but less often measured. The temporary reduction in executive control connectivity, and its association with later mindfulness, gives a neat bridge between network neuroscience and persisting subjective change.

Introduction

Psilocybin is a serotonergic psychedelic whose acute effects include profound alterations in consciousness lasting about six hours and characterised by sensory and affective changes. Previous clinical and healthy-volunteer studies have reported persistent improvements in mood, well-being and personality traits (for example, increased openness and mindfulness) after one or a few moderate-to-high doses. Although acute effects on resting-state functional connectivity (RSFC) have been documented — including transient disruption of the default mode network (DMN) and increased between-network coupling during the drug experience — there is limited and mixed evidence regarding persistent changes in brain connectivity after the acute effects subside. Few studies have imaged the brain beyond the immediate post-session period, and none, according to the authors, have robustly linked longer-term RSFC changes to concomitant psychological changes or PET measures of 5-HT2A receptor binding. Drummond and colleagues therefore set out to evaluate lasting changes in RSFC following a single psilocybin dose in a small cohort of healthy, psychedelic-naïve volunteers. The study measured within-network and between-network RSFC at baseline, one-week and three-months post-administration, attempted to replicate a prior region-to-region analysis, and explored whether RSFC changes related to acute phenomenology, persisting psychological measures (for example, personality and mindfulness), and neocortex 5-HT2A receptor binding assessed with [11C]Cimbi-36 PET. The aim was to identify candidate brain-system changes that might mediate lasting behavioural effects of psilocybin.

Methods

This was an open-label imaging study of 10 healthy, psychedelic-naïve volunteers (6 male, 4 female; mean age 28.3 ± 3.4 years). Participants were screened for somatic and psychiatric illness and gave informed consent. Psilocybin was administered in a controlled setting with two supporting psychologists present; dosing was 0.2 mg/kg (n = 4) or 0.3 mg/kg (n = 6) given orally in capsule form. Subjective drug intensity was sampled verbally every 20 minutes during the session. Participants completed questionnaires at baseline and at three-month follow-up, including the NEO Personality Inventory-Revised (NEO PI-R), the Mindfulness Attention and Awareness Scale (MAAS) and the Persisting Effects Questionnaire (PEQ). Acute subjective measures included the 11-dimension Altered States of Consciousness questionnaire (11D-ASC), the MEQ30 mystical experience questionnaire and the Ego-Dissolution Inventory (EDI). Neuroimaging comprised three identical MRI sessions (baseline, one-week and three-months) on a 3T scanner and two PET sessions (baseline and one-week) using the agonist radioligand [11C]Cimbi-36 to estimate neocortex 5-HT2A receptor binding (BPND). Resting-state BOLD data consisted of 10 minutes with eyes closed; participants were instructed to let their minds wander but not fall asleep. fMRI preprocessing used SPM12 and CONN: slice timing correction, realignment/unwarping, coregistration and segmentation, normalisation to MNI space and spatial smoothing (8 mm FWHM). Denoising included bandpass filtering (0.008–0.09 Hz), aCompCor physiological component regression (first five components for white matter and CSF), motion parameter regression with derivatives, and censoring of outlier volumes using ART (global variance and composite motion thresholds). Connectivity analyses used an a priori atlas defining 36 regions across seven canonical resting-state networks: DMN, dorsal attention (DAN), executive control (ECN), salience (SN), sensorimotor (SMN), visual (VN) and auditory (AN). Within-network connectivity was defined as the mean Fisher z-transformed correlation between all pairs of ROIs in a network; between-network connectivity was the mean across ROIs in two different networks. A secondary analysis used a 268-region Shen atlas to attempt replication of a prior region-to-region approach. Statistical testing was performed in R using paired t-tests comparing baseline to one-week and baseline to three-months separately. The authors adjusted p-values across the 28 within- and between-network comparisons with the Bonferroni–Holm method and reported Cohen's d effect sizes. Exploratory post-hoc analyses were performed for any network effect that passed the primary threshold, but the authors caution that these are not inferential due to limited power. For the Shen268 analysis, they followed a two-stage approach similar to the prior study but applied Bonferroni–Holm correction across the tested edges to control family-wise error. Correlations between RSFC change and behavioural or PET measures were reported descriptively and via latent-variable modelling for PEQ subscales.

Results

All 10 participants completed the imaging sessions; psilocybin was well tolerated and no serious adverse events occurred. Mean time intervals were reported: baseline to intervention ~15 days, intervention to one-week rescan ~6.5 days, and intervention to three-month rescan ~101.5 days. Motion and number of censored volumes were low and did not differ significantly between time points. The principal finding was a statistically significant decrease in within-network RSFC of the executive control network (ECN) at one-week post-psilocybin. The reported statistics were punc = 0.00039, pFWE = 0.010 and Cohen's d = -1.73, with nine of ten participants showing reduced ECN RSFC at one-week. At three-months ECN RSFC remained numerically decreased relative to baseline but the effect was not statistically significant (punc = 0.23, pFWE = 1; Cohen's d = 0.4 as reported). No other within- or between-network connectivity estimates survived correction for multiple comparisons at either one-week or three-months. Some medium-sized uncorrected effects were noted: at one-week SMN-SMN, ECN-VN and DAN-AN connectivity decreased (Cohen's d ≈ -0.6) while DMN-ECN connectivity increased (Cohen's d ≈ 0.5). At three-months ECN-VN and DAN-AN connectivity remained decreased (Cohen's d ≈ -0.6 and -0.5 respectively). In the Shen268 region-to-region replication framework, 405 edges showed evidence for significant connectivity at baseline under the initial filter step; applying paired tests, 25 edges changed at one-week (19 increases, six decreases) and 18 edges changed at three-months (12 increases, six decreases) at an uncorrected p < 0.05. However, none of these edges remained statistically significant after Bonferroni–Holm correction across the 405 tests. Exploratory association analyses linked the one-week decrease in ECN RSFC to psychological and PET measures. The positive subscales of the PEQ loaded onto a single latent construct (p < 10^-6) and change in ECN RSFC at one-week was negatively associated with that latent positive PEQ factor. The investigators also report that greater ECN disintegration at one-week (and lesser disintegration at three-months) correlated with increased mindfulness at three-months and with decreases in neocortex 5-HT2A binding at one-week. Change in ECN RSFC was not associated with measures of the acute psychedelic experience, and trait personality changes such as openness, neuroticism and conscientiousness were not correlated with ECN RSFC change in these analyses.

Discussion

Drummond and colleagues interpret their findings as indicating that a single psilocybin administration produces a transient decrease in ECN resting-state connectivity detectable at one-week but not at three-months, suggesting this may be an afterglow-period phenomenon. They propose that ECN disintegration could be linked to improvements in traits such as mindful awareness and to positive persisting effects reported three months later, and they note associations with reductions in neocortex 5-HT2A binding that could mechanistically relate receptor-level change to network-level alterations and behaviour. The authors highlight that ECN is implicated in executive functions (for example, cognitive flexibility and attentional control) and that alterations in ECN connectivity have been reported in conditions such as depression, obsessive–compulsive disorder and addiction; accordingly, ECN modulation is a plausible candidate mechanism for some therapeutic effects of psilocybin. The discussion situates the null or small effects on other networks in context: despite large subjective and reported personality changes after psilocybin, the authors did not find widespread, lasting RSFC reorganisation beyond the one-week ECN effect. They caution that persistent alterations in the DMN are unlikely to be the dominant long-term mechanism, given the small DMN effect observed and convergence with prior studies that did not find sustained DMN changes. The attempted replication of a prior region-to-region finding reproduced the scale of candidate edges but, after correction for multiple comparisons, yielded no robust effects; this highlights the power limitations of exploratory edgewise analyses in small samples. Key limitations are emphasised: the small sample size (n = 10) limits statistical power and generalisability, and resting-state atlas definitions vary across studies which complicates comparisons. The investigators did not measure plasma psilocin levels, so individual pharmacokinetic variability could not be related to connectivity changes. They suggest alternative analytic approaches (for example, dynamic connectivity or entropy measures), task-based fMRI, and integrated PET–fMRI in larger clinical and healthy cohorts to further map the neurobiological pathways by which psilocybin may produce lasting psychological effects. Overall, the authors present ECN modulation at one-week as a candidate neural correlate worthy of follow-up in adequately powered studies.

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RESULTS

All statistical analyses were calculated in R (v4.0.2) (R Studio Team, 2020). Plots were constructed using the ggplot2 package. Paired t-tests were performed to investigate if there were any significant differences in ART censored volumes between timepoints (one-week vs three-months). Effects of time (one-week vs baseline or three-month vs baseline) were compared separately using paired t-tests to determine the effect of time on within-and between-network connectivity and related estimates. P-values across the 28 within-and between-network comparisons at each time point were adjusted using the Bonferroni-Holm method. We report the Cohen's d value for each post-hoc effect evaluated. Where an effect of psilocybin on connectivity exceeded our statistical significance threshold (p FWE < 0.05), exploratory post-hoc analyses were performed. Due to limited statistical power stemming from a small sample, we do not draw inference on statistical significance for post hoc analyses, but instead report standardised effect sizes and uncorrected p-values. Change in ECN RSFC was also compared with the PEQ using a linear latent variable model capturing shared covariance in individual behavioural change measures using the lava package (v. 1.6.8 in R).

CONCLUSION

Our results show that psilocybin, when administered to healthy volunteers in a controlled environment, statistically significantly decreases ECN RSFC at one-week, but not at three-months. We observed correlations between ECN RSFC changes and changes in MAAS, neocortex 5-HT2AR and positive aspects of the PEQ, implicating alterations in ECN connectivity as a potential mechanism underlying the clinical and behavioural effects of psilocybin. No other network connectivity estimates were statistically significantly affected at one-week or three-months. Our study is small, but nevertheless implicates a candidate brain system underlying lasting psilocybin effects that can be examined in future studies in healthy and patient populations.

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