OPEN Foundation

R. Carhart-Harris

Psychedelics as a treatment for disorders of consciousness

Abstract

Based on its ability to increase brain complexity, a seemingly reliable index of conscious level, we propose testing the capacity of the classic psychedelic, psilocybin, to increase conscious awareness in patients with disorders of consciousness. We also confront the considerable ethical and practical challenges this proposal must address, if this hypothesis is to be directly assessed.

Scott, G., & Carhart-Harris, R. L. (2019). Psychedelics as a treatment for disorders of consciousness. Neuroscience of consciousness2019(1), niz003. 10.1093/nc/niz003
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Recreational use of psychedelics is associated with elevated personality trait openness: Exploration of associations with brain serotonin markers

Abstract

BACKGROUND:

Recent studies have suggested therapeutic benefits of psychedelics for a variety of mental health conditions. The understanding of how single psychedelic administrations can induce long-lasting effects are, in large, still lacking. However, recent studies in both healthy and clinical populations suggest a role for personality changes.

AIM:

To test support for some of these plausible mechanisms we evaluated (cross-sectional) associations between recreational use of psychedelics and 3,4-methylene-dioxymethamphetamine (MDMA) and (a) personality measures and (b) key markers of cerebral serotonergic signalling (serotonin transporter and serotonin-2A-receptor binding).

METHODS:

In 10 psychedelic-preferring recreational users, 14 MDMA-preferring users and 21 non-using controls, personality was assessed using the ‘big five’ instrument Revised NEO Personality Inventory (NEO-PI-R). Frontal serotonin transporter and serotonin-2A-receptor binding potentials were quantified using [11C]DASB and [18F]altanserin positron emission tomography, respectively.

RESULTS:

Of the five NEO-PI-R traits, only openness to experience scores differed between the three groups; psychedelic-preferring recreational users showing higher openness to experience scores when compared with both MDMA-preferring users and controls. Openness to experience scores were positively associated with lifetime number of psychedelic exposures, and among all MDMA-preferring user/psychedelic-preferring recreational user individuals, frontal serotonin transporter binding – but not frontal serotonin-2A-receptor binding – was positively associated with openness to experience.

CONCLUSION:

Our findings from this cross-sectional study support increasing evidence of a positive association between psychedelic experiences and openness to experience, and (a) expands this to the context of ‘recreational’ psychedelics use, and (b) links serotonergic neurotransmission to openness to experience. A modulation of personality induced by psychedelic experiences may have important therapeutic implications via its impact on peoples’ value systems, cognitive flexibility, and individual and social behaviour.

Erritzoe, D., Smith, J., Fisher, P. M., Carhart-Harris, R., Frokjaer, V. G., & Knudsen, G. M. (2019). Recreational use of psychedelics is associated with elevated personality trait openness: Exploration of associations with brain serotonin markers. Journal of Psychopharmacology., 10.1177/0269881119827891
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How do psychedelics work?

Abstract

Purpose of review

Psychedelics are reawakening interest from psychiatry, cognitive neuroscience and the general public with impressive outcomes in small-scale clinical trials, intriguing human brain imaging work and high-impact journalism.

Recent findings

This brief opinion piece offers a perspective on how psychedelics work in the brain that may help contextualize these developments. It attempts to link various scales of action, from the molecular (serotonin 2A receptor agonism) through to the anatomical and functional (heightened plasticity) and up to the dynamic (increased brain entropy), systems level (network disintegration and desegregation) and experiential.

Summary

It is proposed that psychedelics initiate a cascade of neurobiological changes that manifest at multiple scales and ultimately culminate in the relaxation of high-level beliefs. The purpose of psychedelic therapy is to harness the opportunity afforded by this belief-relaxation to achieve a healthy revision of pathological beliefs.

Carhart-Harris, R. L. (2019). How do psychedelics work?. Current opinion in psychiatry32(1), 16-21.,  10.1097/YCO.0000000000000467
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Predicting Responses to Psychedelics: A Prospective Study

Abstract

Responses to psychedelics are notoriously difficult to predict, yet significant work is currently underway to assess their therapeutic potential and the level of interest in psychedelics among the general public appears to be increasing. We aimed to collect prospective data in order to improve our ability to predict acute- and longer-term responses to psychedelics. Individuals who planned to take a psychedelic through their own initiative participated in an online survey (www.psychedelicsurvey.com). Traits and variables relating to set, setting and the acute psychedelic experience were measured at five different time points before and after the experience. Principle component and regression methods were used to analyse the data. Sample sizes for the five time points were N = 654, N = 535, N = 379, N = 315, and N = 212 respectively. Psychological well-being was increased 2 weeks after a psychedelic experience and remained at this level after 4 weeks. Higher ratings of a “mystical-type experience” had a positive effect on the change in well-being after a psychedelic experience, whereas the other acute psychedelic experience measures, i.e., “challenging experience” and “visual effects”, did not influence the change in well-being after the psychedelic experience. Having “clear intentions” for the experience was conducive to mystical-type experiences. Having a positive “set” as well as having the experience with intentions related to “recreation” were both found to decrease the likelihood of having a challenging experience. The baseline trait “absorption” and higher drug doses promoted all aspects of the acute experience, i.e., mystical-type and challenging experiences, as well as visual effects. When comparing the relative contribution of different types of variables in explaining the variance in the change in well-being, it seemed that baseline trait variables had the strongest effect on the change in well-being after a psychedelic experience. These results confirm the importance of extra-pharmacological factors in determining responses to a psychedelic. We view this study as an early step towards the development of empirical guidelines that can evolve and improve iteratively with the ultimate purpose of guiding crucial clinical decisions about whether, when, where and how to dose with a psychedelic, thus helping to mitigate risks while maximizing potential benefits in an evidence-based manner.

Haijen, E. C. H. M., Kaelen, M., Roseman, L., Timmermann, C., Russ, S., Nutt, D., & Carhart-Harris, R. L. (2018). Predicting responses to psychedelics: a prospective study. Frontiers in pharmacology9, 897., 10.3389/fphar.2018.00897
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Common neural signatures of psychedelics: Frequency-specific energy changes and repertoire expansion revealed using connectome-harmonic decomposition.

Abstract

The search for the universal laws of human brain function is still on-going but progress is being made. Here we describe the novel concepts of connectome harmonics and connectome-harmonic decomposition, which can be used to characterize the brain activity associated with any mental state. We use this new frequency-specific language to describe the brain activity elicited by psilocybin and LSD and find remarkably similar effects in terms of increases in total energy and power, as well as frequency-specific energy changes and repertoire expansion. In addition, we find enhanced signatures of criticality suggesting that the brain dynamics tune toward criticality in both psychedelic elicited states. Overall, our findings provide new evidence for the remarkable ability of psychedelics to change the spatiotemporal dynamics of the human brain.
Atasoy, S., Vohryzek, J., Deco, G., Carhart-Harris, R. L., & Kringelbach, M. L. (2018). Common neural signatures of psychedelics: Frequency-specific energy changes and repertoire expansion revealed using connectome-harmonic decomposition. Progress in brain research242, 97-120., 10.1016/bs.pbr.2018.08.009
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More Realistic Forecasting of Future Life Events After Psilocybin for Treatment-Resistant Depression

Abstract

Background: Evidence suggests that classical psychedelics can promote enduring changes in personality, attitudes and optimism, as well as improvements in mental health outcomes.
Aim: To investigate the effects of a composite intervention, involving psilocybin, on pessimism biases in patients with treatment-resistant depression (TRD).
Methods: Patients with TRD (n = 15) and matched, untreated non-depressed controls (n = 15) performed the Prediction Of Future Life Events (POFLE) task. The POFLE task requires participants to predict the likelihood of certain life events occurring within a 30-day period, after which the actual rate of event occurrence is reported; this gives an index of potential pessimism versus optimism bias. Psilocybin was administered in two oral dosing sessions (10 and 25 mg) one week apart. Main outcome measures were collected at baseline and one week after the second dosing session.
Results: Patients showed a significant pessimism bias at baseline [t(14) = -3.260, p = 0.006; 95% CI (-0.16, -0.03), g = 1.1] which was related to the severity of their depressive symptoms (rs = -0.55, p = 0.017). One week after psilocybin treatment, this bias was significantly decreased [t(14) = -2.714, p = 0.017; 95% CI (-0.21, -0.02), g = 0.7] and depressive symptoms were greatly improved [t(14) = 7.900, p < 0.001; 95% CI (16.17, 28.23), g = 1.9]; moreover, the magnitude of change in both variables was significantly correlated (r = -0.57, p = 0.014). Importantly, post treatment, patients became significantly more accurate at predicting the occurrence of future life events [t(14) = 1.857, p = 0.042; 95% CI (-0.01, 0.12), g = 0.6] whereas no such change was observed in the control subjects.
Conclusion: These findings suggest that psilocybin with psychological support might correct pessimism biases in TRD, enabling a more positive and accurate outlook.
Lyons, T., & Carhart-Harris, R. L. (2018). More realistic forecasting of future life events after psilocybin for treatment-resistant depression. Frontiers in psychology9. 10.3389/fpsyg.2018.01721
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Whole-Brain Multimodal Neuroimaging Model Using Serotonin Receptor Maps Explains Non-linear Functional Effects of LSD

Abstract

Understanding the underlying mechanisms of the human brain in health and disease will require models with necessary and sufficient details to explain how function emerges from the underlying anatomy and is shaped by neuromodulation. Here, we provide such a detailed causal explanation using a whole-brain model integrating multimodal imaging in healthy human participants undergoing manipulation of the serotonin system. Specifically, we combined anatomical data from diffusion magnetic resonance imaging (dMRI) and functional magnetic resonance imaging (fMRI) with neurotransmitter data obtained with positron emission tomography (PET) of the detailed serotonin 2A receptor (5-HT2AR) density map. This allowed us to model the resting state (with and without concurrent music listening) and mechanistically explain the functional effects of 5-HT2AR stimulation with lysergic acid diethylamide (LSD) on healthy participants. The whole-brain model used a dynamical mean-field quantitative description of populations of excitatory and inhibitory neurons as well as the associated synaptic dynamics, where the neuronal gain function of the model is modulated by the 5-HT2AR density. The model identified the causative mechanisms for the non-linear interactions between the neuronal and neurotransmitter system, which are uniquely linked to (1) the underlying anatomical connectivity, (2) the modulation by the specific brainwide distribution of neurotransmitter receptor density, and (3) the non-linear interactions between the two. Taking neuromodulatory activity into account when modeling global brain dynamics will lead to novel insights into human brain function in health and disease and opens exciting possibilities for drug discovery and design in neuropsychiatric disorders.

Deco, G., Cruzat, J., Cabral, J., Knudsen, G. M., Carhart-Harris, R. L., Whybrow, P. C., … & Kringelbach, M. L. (2018). Whole-brain multimodal neuroimaging model using serotonin receptor maps explains non-linear functional effects of LSD. Current biology28(19), 3065-3074., 10.1016/j.cub.2018.07.083

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Serotonin, psychedelics and psychiatry

Serotonin is a key neuromodulator known to be involved in brain development, perception, cognition, and mood. However, unlike as with dopamine for example, a compelling unified theory of brain serotonin function has not yet been established. This is likely due to the exceptional complexity of the serotonin system, with its 14+ receptors, over twice the number identified for any of the other major neuromodulator systems.

Serotonin has been implicated in several major psychiatric disorders, and most obviously in depression. Chronic medication with selective serotonin reuptake inhibitors (SSRIs) remains the dominant treatment for unipolar depression, and SSRI prescription rates have been increasing year‐on‐year at record levels. Such widespread SSRI use has not noticeably impacted on depression prevalence, however, and questions continue to be asked about the safety, efficacy and general philosophy of chronic pharmacotherapy.

Historically, psychiatry has been a divided house, with the psychodynamic model dominating the first half of the 20th century, and the biomedical model ever since. It is natural for early perspectives within nascent disciplines to overshoot in confidence before maturing and moderating over time. Such has been the case with psychodynamic psychology for example, and there are reasons to suspect that something similar may be happening in relation to the pharmacological model.

This subtle shift in perspective is especially evident in contemporary serotonin and depression research. Until recently, it was not unusual to hear patients, doctors and even psychiatrists speak with presumed authority about how deficient serotonin functioning is causal of depression, offering solace in the view that “serotonin is to blame”. As with genetic determinism, one should be mindful of the emotional function of such explanations – especially in psychiatry, the most personal of medical disciplines.

So what is the relationship between serotonin and depression? A fair (but unsatisfactory) answer to this question is that “it is complex”. Not wishing to sit on the fence, however, a more constructive statement is that there is increasing evidence that serotonergic processes play a critical role in mediating an individual’s sensitivity to context. For example, within the last decade, seminal work has been done to demonstrate how genetic variation within and pharmacological manipulations of the serotonergic system interact significantly with environmental factors to determine outcomes in mental health. The natural implication is that the pure pharmacological model can explain only part of the mental health picture.

What, then, is the alternative? By implication, we should be looking for a hybrid model, a middle‐way, that combines the precision, potency and cost‐effectiveness of biomedicine with the depth of insight and roundedness of psychology. There is already evidence that SSRIs, in combination with evidence‐based psychotherapies, offer (marginally) superior efficacy over either treatment alone – but should our search stop here?

In 1975, the Czech psychiatrist S. Grof compared the potential impact of psychedelic drugs on psychiatry to that of the microscope on biology and, while this analogy may strike some as laughable, let us reflect for a moment that human research with psychedelics has been effectively moribund since the restrictive drug policy reforms of the 1960s‐70s, and has only recently been revived.

Classic serotonergic psychedelics – such as LSD, psilocybin and dimethyltryptamine – all possess agonist properties at the 5‐HT2A receptor subtype, and 5‐HT2A receptor agonism is known to be the pharmacological trigger of the “psychedelic experience”. Crucially, there is also a wealth of evidence to implicate 5‐HT2A receptor signaling in processes of plasticity, such as neurogenesis, neurodevelopment, learning, extinction learning, cognitive flexibility and enhanced environmental sensitivity.

Added to this, the subjective quality of a psychedelic experience is highly susceptible to contextual influence, for example from the environment in which it occurs as well as from the expectations of the “tripper” and those around him or her. Moreover, the quality of an acute psychedelic experience appears to be a highly reliable predictor of subsequent long‐term mental health outcomes. Another predictor of long‐term psychological outcomes is the degree of increase in the complexity or “entropy” of brain activity recorded during the psychedelic experience, and this brain effect is hypothesized to be relatively unique to psychedelics, and key to an understanding of their exceptional phenomenology and therapeutic potential.

Within the last 12 years, a growing body of evidence, albeit from mostly small scale pilot studies, has suggested that psychedelics, combined with contextual manipulation (such as music listening and psychological support), can offer a safe and effective treatment for a range of different psychiatric disorders. Where successful, the treatment effect appears to be rapid and enduring. Moreover, promising outcomes have not just been seen in depression, but in addiction and other disorders as well. That just one or two treatment sessions can yield therapeutic effects lasting for several months is unprecedented in modern psychiatry. Of course, incredible claims require credible evidence but, with large randomized controlled trials beginning with psilocybin for depression, the required roads are being laid.

A simple and plausible model of therapeutic mechanisms of psychedelic treatments would greatly complement this ongoing clinical work. The thesis is put forward here that serotonin differentially encodes behavioral and physiological responses to uncertainty. More specifically, it is proposed that the limbic‐rich inhibitory postsynaptic 5‐HT1A receptor subtype provides basal control during normal conditions, via moderating emotion and anxiety, and promoting a generalized patience. On the other hand, the cortically‐rich 5‐HT2A receptor subtype is hypothesized to engage more during conditions of crisis, when the above‐mentioned default mechanism becomes suboptimal, e.g. when an individual’s internal and/or external milieu becomes so changeable and/or inconsistent with his/her prior beliefs and behaviors that significant revisions become mandated.

Viewed through a Bayesian lens, it is proposed that the principal functional effect of 5‐HT2A receptor stimulation is to relax prior assumptions or beliefs, held at multiple levels of the brain’s functional hierarchy: perceptually, emotionally, cognitively and philosophically (e.g., in terms of biases). In so doing, it opens a door to heightened sensitivity to context, an ideal pre‐condition for effective change.

Carhart‐Harris, R. L. (2018). Serotonin, psychedelics and psychiatry. World Psychiatry17(3), 358., 10.1002/wps.20555
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Psychedelics, Meditation, and Self-Consciousness

Abstract

In recent years, the scientific study of meditation and psychedelic drugs has seen remarkable developments. The increased focus on meditation in cognitive neuroscience has led to a cross-cultural classification of standard meditation styles validated by functional and structural neuroanatomical data. Meanwhile, the renaissance of psychedelic research has shed light on the neurophysiology of altered states of consciousness induced by classical psychedelics, such as psilocybin and LSD, whose effects are mainly mediated by agonism of serotonin receptors. Few attempts have been made at bridging these two domains of inquiry, despite intriguing evidence of overlap between the phenomenology and neurophysiology of meditation practice and psychedelic states. In particular, many contemplative traditions explicitly aim at dissolving the sense of self by eliciting altered states of consciousness through meditation, while classical psychedelics are known to produce significant disruptions of self-consciousness, a phenomenon known as drug-induced ego dissolution. In this article, we discuss available evidence regarding convergences and differences between phenomenological and neurophysiological data on meditation practice and psychedelic drug-induced states, with a particular emphasis on alterations of self-experience. While both meditation and psychedelics may disrupt self-consciousness and underlying neural processes, we emphasize that neither meditation nor psychedelic states can be conceived as simple, uniform categories. Moreover, we suggest that there are important phenomenological differences even between conscious states described as experiences of self-loss. As a result, we propose that self-consciousness may be best construed as a multidimensional construct, and that “self-loss,” far from being an unequivocal phenomenon, can take several forms. Indeed, various aspects of self-consciousness, including narrative aspects linked to autobiographical memory, self-related thoughts and mental time travel, and embodied aspects rooted in multisensory processes, may be differently affected by psychedelics and meditation practices. Finally, we consider long-term outcomes of experiences of self-loss induced by meditation and psychedelics on individual traits and prosocial behavior. We call for caution regarding the problematic conflation of temporary states of self-loss with “selflessness” as a behavioral or social trait, although there is preliminary evidence that correlations between short-term experiences of self-loss and long-term trait alterations may exist.

Millière, R., Carhart-Harris, R. L., Roseman, L., Trautwein, F. M., & Berkovich-Ohana, A. (2018). Psychedelics, meditation, and self-consciousness. Frontiers in psychology9.,  10.3389/fpsyg.2018.01475
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DMT Models the Near-Death Experience

Abstract

Near-death experiences (NDEs) are complex subjective experiences, which have been previously associated with the psychedelic experience and more specifically with the experience induced by the potent serotonergic, N,N-Dimethyltryptamine (DMT). Potential similarities between both subjective states have been noted previously, including the subjective feeling of transcending one’s body and entering an alternative realm, perceiving and communicating with sentient ‘entities’ and themes related to death and dying. In this within-subjects placebo-controled study we aimed to test the similarities between the DMT state and NDEs, by administering DMT and placebo to 13 healthy participants, who then completed a validated and widely used measure of NDEs. Results revealed significant increases in phenomenological features associated with the NDE, following DMT administration compared to placebo. Also, we found significant relationships between the NDE scores and DMT-induced ego-dissolution and mystical-type experiences, as well as a significant association between NDE scores and baseline trait ‘absorption’ and delusional ideation measured at baseline. Furthermore, we found a significant overlap in nearly all of the NDE phenomenological features when comparing DMT-induced NDEs with a matched group of ‘actual’ NDE experiencers. These results reveal a striking similarity between these states that warrants further investigation.
Timmermann, C., Roseman, L., Williams, L., Erritzoe, D., Martial, C., Cassol, H., … & Carhart-Harris, R. (2018). DMT models the near-death experience. Frontiers in psychology9, 1424., 10.3389/fpsyg.2018.01424
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