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Use of psychedelic treatments in psychiatric clinical practice: an EPA policy paper

Published online by Cambridge University Press:  10 January 2025

M. Destoop ,
P. Mohr Open the ORCID record for P. Mohr [Opens in a new window] ,
F. Butlen Open the ORCID record for F. Butlen [Opens in a new window] ,
P. Kéri ,
J. Samochowiec Open the ORCID record for J. Samochowiec [Opens in a new window] ,
L. De Picker Open the ORCID record for L. De Picker [Opens in a new window] ,
A. Fiorillo Open the ORCID record for A. Fiorillo [Opens in a new window] ,
K.P.C. Kuypers Open the ORCID record for K.P.C. Kuypers [Opens in a new window]  and
G. Dom Open the ORCID record for G. Dom [Opens in a new window]
M. Destoop*
Affiliation:
Collaborative Antwerp Psychiatric Research Institute (CAPRI), University of Antwerp, Antwerp, Belgium Multiversum Psychiatric Hospital, Boechout, Belgium
P. Mohr
Affiliation:
Clinical Department, National Institute of Mental Health, Klecany, Czech Republic Third School of Medicine, Charles University, Prague, Czech Republic
F. Butlen
Affiliation:
Office for Neurological and Psychiatric Disorders, European Medicines Agency, Amsterdam, The Netherlands Institut Gustave Roussy, Psycho-Oncology Unit, Interdisciplinary Department for the Organization of Patient Pathways, Cancer Campus, Grand Paris, France Université Paris-Saclay, UVSQ, Inserm, CESP, Villejuif, France
P. Kéri
Affiliation:
Global Alliance of Mental Illness Advocacy Networks-Europe (GAMIAN-Europe), Brussels, Belgium
J. Samochowiec
Affiliation:
Pomeranian Medical University in Szczecin, Szczecin, Poland
L. De Picker
Affiliation:
Collaborative Antwerp Psychiatric Research Institute (CAPRI), University of Antwerp, Antwerp, Belgium University Psychiatric Hospital, Duffel, Belgium
A. Fiorillo
Affiliation:
Department of Psychiatry, University of Campania Luigi Vanvitelli, Naples, Italy
K.P.C. Kuypers
Affiliation:
Department of Neuropsychology and Psychopharmacology, Faculty of Psychology and Neuroscience, Maastricht University, Maastricht, The Netherlands
G. Dom
Affiliation:
Collaborative Antwerp Psychiatric Research Institute (CAPRI), University of Antwerp, Antwerp, Belgium Multiversum Psychiatric Hospital, Boechout, Belgium
*
Corresponding author: Marianne Destoop; Email: Marianne.destoop@uantwerpen.be

Abstract

Background

Recent years show an exponential increased interest (“renaissance”) in the use of psychedelics for the treatment of mental disorders and broader. Some of these treatments, such as psilocybin for depression, are in the process of formal regulation by regulatory bodies in the US (FDA) and Europe (EMA), and as such on the brink of real-world implementation. In the slipstream of these developments increasing commercial initiatives are taking shape. The European Psychiatric Association (EPA) acknowledges both the therapeutic potential of psychedelic substances and the challenges for both research and clinical implementation. Steps need to be taken toward a well-balanced policy based upon sound scientific evidence and research, aiming at safe, ethical responsible integration of psychedelic therapy available for all patients who can potentially benefit.

Methods

In this EPA policy paper, we highlight the potential benefits, and also the challenges of psychedelic treatments, which can be relevant for the future real-world implementation of these treatments.

Results

In addition to an overview of the current evidence and hypotheses of working mechanisms of psychedelic treatment, this policy paper specifically highlights the importance of the psychosocial components of the treatment as well as the ethical and professional aspects playing a role in real-world implementation.

Conclusions

Four recommendations are formulated for further research and clinical implementation.

Keywords

DMTLSDmental healthmethodological challengespsilocybinPsychedelicspsychiatric disorders
Type
EPA Position Paper
Information
European Psychiatry , Volume 68 , Issue 1 , 2025 , e3
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2025. Published by Cambridge University Press on behalf of European Psychiatric Association

Introduction

Recent years show an exponentially growing interest (“renaissance”) in the use of classical psychedelics like psilocybin and LSD for the treatment of mental disorders [Reference Xi, Berger, Shurtleff, Zia and Belouin1]. This dynamic is driven on the one hand by the fast-growing evidence on the effectiveness and the relative safety of these treatments. On the other hand, psychiatry is confronted with the limitations of current pharmacological treatments. Non-response to medications for example is a significant problem with failure rates around 30% [Reference Koch, Pardinas, O’Connell, Selvaggi, Camacho Collados and Babic2]. Taken together, pressures from and on professionals, patients, and families are increasing regarding the use of these “new” psychedelic medications. The situation is further complicated by a burgeoning public culture of non-medical substance use, fueled by media hype and commercialization. Legal and regulatory bodies, that is European Medicine Agency (EMA) and Food and Drug Administration (FDA), are seeking new paths, yet numerous questions persist.

The European Psychiatric Association (EPA) acknowledges both the therapeutic potential of psychedelic substances and the challenges for both research and clinical implementation. Steps need to be taken toward a well-balanced policy based upon sound scientific evidence and research, aiming at safe, ethical responsible integration of psychedelic therapy available for all patients who potentially can benefit.

In this EPA policy paper, we: 1) summarize the current body of evidence on the efficacy of psychedelic treatment, and main working hypotheses; 2) give an overview of the potential risks and adverse effects; 3) highlight challenges concerning research with these substances; 4) express potential ethical concerns; and 5) give advice on next steps for both research and clinical implementation.

Since the field of “psychedelics” is a broad pharmacological domain containing many different substances, we focus on classic psychedelic substances including psilocybin (present in ‘magic mushrooms’), lysergic acid diethylamide (LSD), and N,N-dimethyltryptamine (DMT, the major psychoactive molecule in ayahuasca).

Current body of evidence

Providing a comprehensive overview of current research is beyond the scope of this policy paper. We refer to recent meta-analyses and reviews, cited below.

Rucker et al. (2016) conducted a systematic review involving 423 depressed patients, showing significant symptom improvement post-psychedelic treatment in a majority of participants (79.2%). These findings are supported by subsequent studies and meta-analyses [Reference Breeksema, Kuin, Kamphuis, van den Brink, Vermetten and Schoevers3Reference Sarparast, Thomas, Malcolm and Stauffer8], primarily focusing on single-dose psilocybin, which exhibits faster response rates compared to standard antidepressants like escitalopram, despite intermittent administration. Limited studies on anxiety and OCD patients show positive effects, though duration remains uncertain [Reference Goodwin, Croal, Feifel, Kelly, Marwood and Mistry9Reference Becker, Holze, Grandinetti, Klaiber, Toedtli and Kolaczynska10]. For terminally ill patients experiencing existential distress, psychedelics show promise based on a systematic review of 33 studies [11). Few studies address PTSD and classic psychedelics, but ongoing open-label trials with psilocybin and ayahuasca show promising results [Reference Wall, Harding, Zafar, Rabiner, Nutt and Erritzoe12, Reference Swanson13]. A larger body of research including Phase 2 and Phase 3 trials with MDMA-assisted therapy in PTSD has been published over the last two decades, but this is outside the scope of this paper given our focus on traditional psychedelics [Reference Shahrour, Sohail, Elrais, Khan, Javeid, Samdani, Mansoor, Hussain, Sharma, Ehsan and Nashwan14]. Systematic reviews and meta-analyses on classical psychedelic treatment for substance use disorders yield mixed results, underscoring the need for larger, longer RCTs. Notably, a recent comprehensive study demonstrated substantial benefits in alcohol use when psilocybin is combined with psychotherapy compared to active placebo and psychotherapy alone [Reference Kuburi, Di Passa, Tassone, Mahmood, Lalovic and Ladha15]. Furthermore, it needs to be noted that some countries provide psychedelic-assisted treatment outside of studies, gain clinical experience in the use of psychedelics, and provide treatment guidance [16, Reference Dixon Ritchie, Donley and Dixon Ritchie17].

Overall, although the majority of studies to date are small-scale and methodological issues remain, results suggest that psychedelics have beneficial effects on depression, anxiety, substance use, existential distress, and a variety of psychological domains, such as quality of life and well-being. However, more and larger studies are clearly needed.

Adverse events

Including 44 studies on 598 unique patients, a recent systematic review explored adverse events (AEs) in clinical treatments with psychedelics [Reference Breeksema, Kuin, Kamphuis, van den Brink, Vermetten and Schoevers3]. Notably, in many studies, AEs were not systematically assessed or different adverse event assessment procedures were used. Despite these limitations, the authors concluded that treatments are overall well tolerated and AEs generally occur immediately following treatment while the patient is still under the more intensive care of the therapy team.

The most reported acute AEs include nausea, headaches, and anxiety for serotonergic psychedelics. Acute psychological adverse events (e.g., paranoid thoughts, feeling trapped, illusions, feeling abnormal, psychological discomfort) mostly resolve during sessions, but are sometimes severe.

Concerns have been raised about the addictive potential of psychedelics. However, it is noteworthy that classic psychedelics work on neurotransmitter systems unrelated to those targeted by drugs of abuse neither through dopaminergic effects, and as such are not addictive themselves [Reference Volkow, Gordon and Wargo4].

Since we currently cannot predict individual responses and adverse reactions that may develop in the weeks or months following treatment, researchers and clinicians must perform longer-term follow-ups and report any untoward reactions. Suicidal ideation and suicidal behavior are rare and balanced with reports of decreased suicidality [Reference Breeksema, Kuin, Kamphuis, van den Brink, Vermetten and Schoevers5Reference Zeifman, Yu, Singhal, Wang, Nayak and Weissman7]. However, suicidality always constitutes a serious psychiatric emergency, which emphasizes the importance of investigating which patients are most at risk and how to best reduce the likelihood of their occurrence.

Drug–drug interactions

Since psilocybin is currently moving towards real-world implementation and regulation, it is important to understand drug–drug interactions between psilocybin and psychiatric medications [Reference Sarparast, Thomas, Malcolm and Stauffer8]. Indeed, previous studies on psilocybin-assisted therapy (AT) have generally excluded participants taking psychiatric medications or discontinued psychiatric medications before the administration of psilocybin. Recently, studies have shown the feasibility and safety of combining SSRI and psilocybin [Reference Goodwin, Croal, Feifel, Kelly, Marwood and Mistry9, Reference Becker, Holze, Grandinetti, Klaiber, Toedtli and Kolaczynska10]. More studies are needed here. Furthermore, most clinical trials excluded patients with co-morbid psychiatric or medical illnesses such as uncontrolled hypertension, cardiovascular disease, and liver disease. It remains unclear how to safely administer psilocybin-assisted psychotherapy (AT) to medically ill individuals, including individuals with liver damage that would affect drug metabolism.

Working mechanisms hypotheses

Within the scope of this policy paper, a full overview of all research findings is not possible. For a more in-depth understanding, we refer to the many, excellent available reviews (e.g., [Reference Barksdale, Doss, Fonzo and Nemeroff11, Reference Wall, Harding, Zafar, Rabiner, Nutt and Erritzoe12]).

Recent neuroscience theories propose that psychedelics disrupt neurobiological information-processing constraints, ultimately broadening the scope of perception, emotion, and cognition in a dose-dependent manner [Reference Swanson13]. Overall, these models are hypotheses to describe neural processes and are subject to updates based on new findings.

The cortico-striatal thalamo-cortical (CSTC) model [Reference Vollenweider and Preller18] and the relaxed beliefs under psychedelics (REBUS) model [Reference Carhart-Harris and Friston19] emphasize the role of different subcortical structures (e.g., striatum and thalamus vs (para)hippocampus) in mediating psychedelic drug effects. The CSTC model proposes disturbed thalamocortical coupling leading to increased sensory information flow to the cortex [Reference Vollenweider and Preller18], while the REBUS model suggests reduced top-down influence of higher-level cortical networks, leading to disturbed predictive coding processes [Reference Carhart-Harris and Friston19]. A third theory, cortico-claustro-cortical (CCC), suggests psychedelics disrupt coupling between the claustrum (rich in serotonin (5-HT) 2A receptors) and the cortex [Reference Doss, Madden, Gaddis, Nebel, Griffiths and Mathur20].

In addition, psychedelics potentially alleviate anxiety and depression symptoms by reducing amygdala reactivity, modulating threat sensitivity, and decreasing default mode network (DMN) connectivity [Reference Mason, Kuypers, Müller, Reckweg, Tse and Toennes21]. Their mechanism involves modulating glutamatergic neurotransmission, indirectly stimulating brain-derived neurotrophic factor (BDNF) linked to neurogenesis and neuroplasticity [Reference De Vos, Mason and Kuypers22, Reference Muttoni, Ardissino and John23]. Psychedelics may also reduce inflammation by modulating the immune system and normalizing pro-inflammatory cytokine levels associated with depression [Reference Preller and Vollenweider24]. These processes likely contribute collectively to psychedelics’ therapeutic potential for anxiety and depression.

On an emotional-cognitive level, studies in healthy volunteers have demonstrated that psychedelics can acutely impact social processing, particularly emotional empathy. They increase emotional empathy, especially for positive emotions, potentially aiding social reconnection in addiction therapies. Additionally, they also reduce the recognition of negative emotions, fostering social approach behavior. Limited research suggests their potential impact on decision-making and social feedback integration in therapeutic settings. Studies investigating the long-term effects of psychedelics on social cognition and behavior remain scarce [Reference Preller and Vollenweider24]. Next to changes in social behavior, longer-lasting changes in personality (e.g., increased openness) and mindfulness have been shown [Reference Madsen, Fisher, Stenbæk, Kristiansen, Burmester and Lehel25, Reference Smigielski, Kometer, Scheidegger, Krähenmann, Huber and Vollenweider26].

Methodological challenges in research

Several methodological challenges warrant caution, including expectancy, blinding, the therapeutic alliance and psychedelic experience of the therapist, and other biases; all these issues will be discussed below. For a more detailed discussion of those topics, we refer to for example, [Reference Muthukumaraswamy, Forsyth and Lumley27] or [Reference Aday, Heifets, Pratscher, Bradley, Rosen and Woolley28].

Expectancy

Mertens et al [Reference Mertens, Koslowski, Betzler, Evens, Gilles and Jungaberle29] suggest offering the opportunity to every participant in a clinical trial to receive the ‘experimental treatment’ (here: psychedelics) after assessment of the primary endpoint to minimize nocebo-effects in comparator arms [Reference Mertens, Koslowski, Betzler, Evens, Gilles and Jungaberle29]. To underscore the importance, they refer to the study by Carhart-Harris et al where participants could either receive psilocybin or escitalopram [Reference Carhart-Harris, Giribaldi, Watts, Baker-Jones, Murphy-Beiner and Murphy30]. The depression scores of the patients in the escitalopram group were lower than normally observed in the placebo arm in an escitalopram trial. They suggest that realizing they did not receive psilocybin, the disappointment caused them not to “believe” in the treatment (“expectancy”) and to not improve that strongly [Reference Mertens, Koslowski, Betzler, Evens, Gilles and Jungaberle29].

Blinding

Several approaches have been used aiming to preserve the blinding of treatment, for example, substances that induced physiological effects, like niacin (vitamin B3) [Reference Ross, Bossis, Guss, Agin-Liebes, Malone and Cohen31] or methylphenidate [Reference Griffiths, Richards, McCann and Jesse32], or low doses of the psychedelic [Reference Mertens, Koslowski, Betzler, Evens, Gilles and Jungaberle29, Reference Goodwin, Aaronson, Alvarez, Arden, Baker and Bennett33], or tell the participants that they will receive either a placebo, hallucinogen, stimulant, or sedative drug (e.g. [Reference Bershad, Preller, Lee, Keedy, Wren-Jarvis and Bremmer34]). Although the latter has been used only in research with participants without mental disorders. Alternatively, patients can be asked to guess the treatment they received and on which this guess was based, but also what their expectation is [Reference Muthukumaraswamy, Forsyth and Lumley27].

Effect of therapy and therapist

Psychedelic drug trials often integrate psychotherapy, complicating control of treatment variables. The therapeutic alliance formed between patient and practitioner, influential in treatment outcomes, might heighten the placebo response, potentially risking inflated evidence for psychedelics. Therapists being aware of treatment allocation could inadvertently deliver different therapies across groups, and integration therapies for the treatment group might not suit the control group, potentially causing confusion or discomfort for those on non-psychedelic placebos [Reference Muthukumaraswamy, Forsyth and Sumner35].

Selective reporting bias

One of the biases mentioned in the literature is “selective reporting bias” as it is often unclear due to challenges in determining whether the reported outcomes were pre-planned [Reference Goldberg, Shechet, Nicholas, Ng, Deole and Chen36]. Also, the self-selection bias is often highlighted in psychedelic research, posing challenges for representative ethnic and demographic sampling in mental health research, contributing to healthcare disparities [Reference Muthukumaraswamy, Forsyth and Sumner35]. The underrepresentation of minority scientists and therapists in this field further compounds this issue. Inadequate representation limits the generalizability of findings and could worsen existing inequities in healthcare. Explicit recruitment targets for diverse demographic groups in study protocols could address this. Additionally, the potential influence of experimenter biases and the fusion of investigators’ roles with advocacy in psychedelic science might raise doubts about the objectivity of reported data, potentially affecting the trust of future healthcare users [Reference Muthukumaraswamy, Forsyth and Sumner35].

Pharmacovigilance and patient screening

Concerns about long-term negative outcomes (i.e., negative psychological responses lasting for at least 72 hours) persist despite no broad link to poor mental health in surveys [Reference Barber and Dike37]. Individual risk factors like psychosis susceptibility demand careful patient screening. Ongoing research seeks to pinpoint predictors of adverse responses, yet significant knowledge gaps remain. Identifying and safeguarding vulnerable patients before recommending psychedelic therapy is crucial, recognizing that not everyone is suited for these treatments [Reference Barber and Dike37]. Large clinical studies on long-term negative outcomes of approved psychotropic medication make it possible to select and prioritize contraindications, which is currently not possible due to a small number of qualitative studies on long-term outcomes after psychedelics [Reference Carbonaro38]. Further and greater efforts need to be made to better prevent rare, but important, negative psychological responses to psychedelics [Reference Schlag, Aday, Salam, Neill and Nutt39].

Single dosing versus repeated administration

Most research protocols with psilocybin have used a single-dosing scheme. Recently, Nutt et al. [Reference Nutt, Crome and Young40] suggested that this treatment regime will be repeated up to once more for psilocybin at no less than monthly intervals. However, more research is needed to evaluate the need (and for whom) for continuation of treatment.

Psychosocial – psychotherapeutic aspects of the treatment

Psychedelics and therapy are often named “psychedelic-assisted (psycho)therapy.” In the earlier days of psychedelic research, there was also “psycholytic therapy,” using the psychedelic as an aid to psychotherapy, while psychedelic therapy was more focused on the experience, also using higher doses than the former therapy [Reference Passie, Guss and Krähenmann41]. What we see today is a combination of both approaches, using the higher doses, used in psychedelic therapy, and having multiple integration sessions afterward to work through the material, though sometimes no extensive integration is done, more leaning towards the old psychedelic therapy model.

Overall, in clinical trials where psychedelics are used, we typically see two to three stages, including preparation, sessions with the psychedelic substance, and integration after psychedelic sessions take place; the latter is not standard in research protocols, but much of the psilocybin research, however, emphasized integration. The preparation phase informs individuals about what to expect, fosters rapport, and addresses questions. Following this, one or more inner-directed psychedelic sessions prompt individuals to delve inward. Integration sessions can follow, allowing reflection on the psychedelic experience and its potential for sustained cognitive and behavioral changes [Reference Cavarra, Falzone, Ramaekers, Kuypers and Mento42].

Therapeutic approaches range from basic support to integrating evidence-based psychotherapies like cognitive-behavioral therapy or acceptance and commitment therapy [Reference Brennan and Belser43]. When used in preparation and integration sessions, evidence-based therapies, aim to enhance treatment efficacy by integrating therapeutic interventions and knowledge from established therapeutic approaches [Reference Brennan and Belser43]. They offer advantages such as improved training for therapists, the potential for enhanced efficacy, and political legitimacy, they also introduce constraints on how therapeutic benefit is conceptualized in psychedelic-AT. This constraint may limit the broad range of therapeutic experiences that participants can have during sessions with the substance, potentially pressuring them to conform to a fixed set of treatment outcomes, risking harm, and undermining the participant’s understanding of their experience.

While psychedelic-AT in clinical trials is generally given on an individual basis, some recent studies have tried group therapy with psilocybin [Reference Lewis, Byrne, Hendrick, Garland, Thielking and Beck44, Reference Anderson, Danforth, Daroff, Stauffer, Ekman and Agin-Liebes45], to investigate whether this option could maximize patient benefits and resource availability. Demonstrated as feasible, this approach could be explored more, to understand whether it adds therapeutic benefits while optimizing resource use.

Ethical aspects and professional challenges

Given the speed the field is moving there is a pressing need to better understand how these treatments might be most ethically delivered. Indeed, reports of unethical conduct have already been reported [Reference Nutt, Spriggs and Erritzoe46, Reference Spriggs, Murphy-Beiner, Murphy, Bornemann, Thurgur and Schlag47]. In addition to and despite evidence on an overall good safety profile of these treatments (Reference Breeksema, Kuin, Kamphuis, van den Brink, Vermetten and Schoevers5), critical voices remain highlighting that, although some patients respond well to these treatments, others might experience adverse reactions [Reference Rossell, Meikle, Williams and Castle48, Reference McNamee, Devenot and Buisson49].

Several ethical aspects warrant specific attention in the (future) use of psychedelics in psychiatric treatment. First, psychiatrists as professionals should avoid being swayed too heavily by the (media) headlines [Reference Nutt, Spriggs and Erritzoe46]. Indeed, despite the promising results, psychedelics are no wonder drugs, but the hype has gotten ahead of the science [Reference Volkow, Gordon and Wargo4]. An evidence-based approach is essential when implementing psychedelic treatments in real-world psychiatry. In this sense, some authors caution against overemphasis on breakthrough therapy designations by regulatory authorities and advise against unwarranted enthusiasm or extrapolation from early trial successes, especially given the complexity of psychedelic therapy [Reference Barber and Dike37].

Second, psychedelic therapies demand specific informed consent due to their distinct effects [Reference Barber and Dike50, Reference Smith and Sisti51]. Enhanced consent methods are crucial, ensuring patients grasp the treatments’ nuances, considering intense consciousness shifts and potential changes in personality or beliefs. Enduring effects like increased openness or altered views should be disclosed pre-consent, allowing patients to opt-out if concerned. A rigorous consent process aligns with the “set and setting” approach, emphasizing the patient’s mindset and environment during therapy. Preparing patients before sessions, centered on informed consent, aims to ethically guide psychedelic therapy [Reference Barber and Dike37].

Third, one aspect to consider is the complexity of the patient-therapist interaction. Yet, there is no certification of a “psychedelic therapist” nor there is a consensus on what exactly is needed as psychosocial interventions within the context of psychedelic treatment. Most “psychedelic” sitters at this moment are not therapeutically trained and not governed by therapeutical ethical codes [Reference Spriggs, Murphy-Beiner, Murphy, Bornemann, Thurgur and Schlag47]. Indeed, as patients enter highly vulnerable and even regressed states with psychedelics, challenging aspects of the ordinary therapeutic relationship and processes are amplified [Reference Spriggs, Murphy-Beiner, Murphy, Bornemann, Thurgur and Schlag47]. While these treatments promote trust and openness, they can lead to overthrust and suggestibility, risking patient manipulation. Past ethical violations emphasize the need for rigorous ethical standards and specialized clinician training [Reference Barber and Dike37].

A final note of ethical concern is the rapid rise of interest by the private sector and the exponential influx of financial investments. This might create specific tensions, for example, it is easy to imagine how marketing hype could supplant evidence-based practice [Reference Smith and Appelbaum52]. This warrants that patients, care providers, funding bodies, and researchers need a countervailing body of objective services research and economic analysis with a minimum of conflict of interest and a commitment to open science [Reference Petranker, Anderson and Farb53, Reference Marseille, Bertozzi and Kahn54].

Training and education

The training landscape for psychedelic therapists is evolving with a focus on skills that impact outcomes, like empathy for altered states and immersive experiences. Current interventions vary from structured strategies to less rigid approaches due to constraints from pharmaceutical studies. Historically, therapist training was influenced by personal experiences with psychedelics [Reference Passie and Brandt55], but this may change with a shift toward more scientific frameworks. While personal experiences could aid empathy during patient sessions, their significance is debated and needs further exploration. Training programs may acknowledge their value while aiming to balance their role, aligning psychedelic therapists’ skills with broader psychotherapy research [Reference Gründer and Jungaberle56].

A key emphasis in training is on integration skills, facilitating patients’ incorporation of psychedelic experiences into daily life. Combining third-wave cognitive-behavioral therapies with psychedelic treatments appears promising in connecting extraordinary experiences with practical, real-life changes [Reference Gründer and Jungaberle56].

Next steps toward real-world healthcare implementation

Despite many questions remaining, based on the current (still limited) evidence and socio-legal dynamics in many countries, it is realistic to expect that (European) regulation and the possibility for a prescription for a limited (but growing) number of indications will be at hand soon. From a positive stance, when evidence on efficacy continues to accumulate, the implementation of psychedelic treatment might represent a paradigm shift in mental health care. This raises questions regarding both the societal impact and the professional healthcare as treatments are scaled up from research trials to real-world clinical practice [Reference Aday, Carhart-Harris and Woolley57].

Specifically for Europe, the European Medicine Agency (EMA) is in the process of evaluating the regulation of psilocybin. Within this context, the (3rd) revised draft Guideline on clinical investigation of medicinal products in the treatment of depression highlights the research and development for the repurposing of psychedelics [Reference Butlen-Ducuing, Haberkamp, Aislaitner, Balkowiec-Iskra, Mattila and Doucet58]. It recommends that, as with all other antidepressants, randomized, double-blind, placebo-controlled, short-term trials are needed to establish a positive benefit/risk, as well as trials to confirm the maintenance of effect. In addition, it recommends starting a clinical investigation in a more severely affected population, such as patients with TRD [Reference Butlen-Ducuing, Haberkamp, Aislaitner, Balkowiec-Iskra, Mattila and Doucet58, Reference Butlen-Ducuing, McCulloch, Haberkamp, Mattila, Balkowiec-Iskra and Aislaitner59].

In parallel with the regulatory bodies, an important role is played by national and international scientific and medical associations. Indeed, these are key in shaping the context (guidance, protocol) within a real-world implementation of these new treatments. From this perspective, the EPA recommends that in future research and steps toward further clinical implementation:

  1. 1. The role of psychosocial and psychotherapeutic interventions needs to be clarified. Indeed, as summarized above, many questions remain about how the psychotherapy components of psychedelic AT produce meaningful benefits above and beyond the drug itself. We recommend testing the efficacy of adjunctive psychosocial treatments with a strong evidence base for the psychiatric indication of interest [Reference Weintraub and Miklowitz60]. Based on growing evidence, protocols and guidance need to be developed regarding interventions during the preparation, drug administration, and integration phase of the treatment [Reference Butlen-Ducuing, McCulloch, Haberkamp, Mattila, Balkowiec-Iskra and Aislaitner59].

  2. 2. Given the complex ethical issues, there is a clear need to develop [Reference Weintraub and Miklowitz60] standard guidance and protocols on how to deliver in an ethical and professionally responsible way these specific types of treatment [Reference Visontay, Mewton, Slade, Aris and Sunderland61].

  3. 3. Equity in research and clinical care delivery is advisable:

    1. a. In addition to difficult-to-treat populations (e.g., treatment-resistant and partial responders), research needs to include a broader spectrum of populations to reflect real-world effectiveness. This includes considering differences in gender, socio-economic, race, and cultural background as well as patients with multiple (comorbid) disorders.

    2. b. Psychedelic-AT must become available to everyone who can benefit. Now, it is an expensive treatment, thus there is a serious need to explore affordable delivery models across different healthcare contexts and different populations [Reference Spriggs, Murphy-Beiner, Murphy, Bornemann, Thurgur and Schlag47]. In addition, protocol development regulations and reimbursement rules need to enable equity in care delivery.

    3. c. Health-economic analyses should be included in designing future studies.

  4. 4. Economic and commercial aspects should be taken into account. The last years have seen a rapid rise of interest by the private (for profit) sector. When interacting with these commercial entities, healthcare professionals need to be transparent and uphold strict ethical standards.

Conclusion and call for action

The EPA is welcoming and recognizing the potential of psychedelic treatment as a promising field on the brink of real-world implementation. However, it warrants careful keeping to the evidence amidst the hyperinflated public and media hype and commercial interests. Further research is needed in larger trials to assess the efficacy and safety of both the pharmacologic drug aspects and the psychosocial therapeutic context. With pending regulations by the FDA and the EMA, the national and international medical and scientific bodies have to deliver broader clinical protocols and guidance. Safety, effectiveness, and accessibility of these new treatments are hallmark goals in developing these protocols. Some national associations have already produced standards (e.g., The Royal Australian and New Zealand College of Psychiatrists; RANZCP). However, given the specific European context governed by one EU regulating medicine body, there is a clear rationale to develop protocols and standards on a European level [Reference Seybert, Cotovio, Madeira, Ricou, Pires and Oliveira-Maia62, Reference Butlen-Ducuing, Haberkamp, Aislaitner, Balkowiec-Iskra, Mattila and Doucet58]. These should guide the national psychiatric associations in the different European countries to develop their own, context-specific national protocols.

  1. 1. Evidence-based protocols need to be developed regarding interventions during the preparation, drug administration, psychotherapeutic interventions, and integration phase of the treatment.

  2. 2. Standard guidance on how to deliver in an ethical and professionally responsible way is indispensable.

  3. 3. Research needs to include a broader spectrum of populations to reflect real-world effectiveness and a health-economic analysis in order to make psychedelic-AT available to everyone who can benefit.

  4. 4. Healthcare professionals should be transparent about commercial aspects and uphold strict ethical standards.

Disclaimer

The views expressed in this article may not be understood or quoted as being made for or reflecting the position of the EMA or any of its committees or working parties. Florence Butlen-Ducuing was an employee of the European Medicines Agency during the conceptual design, drafting, and review of the manuscript.

Competing interest

None declared.

Footnotes

K.P.C. Kuypers and G. Dom authors contributed equally.

References

Xi, D, Berger, A, Shurtleff, D, Zia, FZ, Belouin, S. National institutes of health psilocybin research speaker series: state of the science, regulatory and policy landscape, research gaps, and opportunities. Neuropharmacology. 2023;230:109467.CrossRefGoogle ScholarPubMed
Koch, E, Pardinas, AF, O’Connell, KS, Selvaggi, P, Camacho Collados, J, Babic, A, et al. How real-world data can facilitate the development of precision medicine treatment in psychiatry. Biol Psychiatr. 2024.CrossRefGoogle ScholarPubMed
Breeksema, JJ, Kuin, BW, Kamphuis, J, van den Brink, W, Vermetten, E, Schoevers, RA. Adverse events in clinical treatments with serotonergic psychedelics and MDMA: a mixed-methods systematic review. J Psychopharmacol. 2022;36(10):1100–17.CrossRefGoogle ScholarPubMed
Volkow, ND, Gordon, JA, Wargo, EM. Psychedelics as therapeutics-potential and challenges. JAMA Psychiatr. 2023;80(10):979–80.CrossRefGoogle ScholarPubMed
Breeksema, JJ, Kuin, BW, Kamphuis, J, van den Brink, W, Vermetten, E, Schoevers, RA. Adverse events in clinical treatments with serotonergic psychedelics and MDMA: a mixed-methods systematic review. J Psychopharmacol. 2022;36(10):1100–17.CrossRefGoogle ScholarPubMed
Yang, KH, Han, BH, Palamar, JJ. Past-year hallucinogen use in relation to psychological distress, depression, and suicidality among US adults. Addict Behav. 2022;132:107343.CrossRefGoogle ScholarPubMed
Zeifman, RJ, Yu, D, Singhal, N, Wang, G, Nayak, SM, Weissman, CR. Decreases in suicidality following psychedelic therapy: a meta-analysis of individual patient data across clinical trials. J Clin Psychiatr. 2022;83(2).Google ScholarPubMed
Sarparast, A, Thomas, K, Malcolm, B, Stauffer, CS. Drug-drug interactions between psychiatric medications and MDMA or psilocybin: a systematic review. Psychopharmacology. 2022;239(6):1945–76.CrossRefGoogle ScholarPubMed
Goodwin, GM, Croal, M, Feifel, D, Kelly, JR, Marwood, L, Mistry, S, et al. Psilocybin for treatment resistant depression in patients taking a concomitant SSRI medication. Neuropsychopharmacol Off Publ Am Col Neuropsychopharmacol 2023;48(10):1492–9.CrossRefGoogle ScholarPubMed
Becker, AM, Holze, F, Grandinetti, T, Klaiber, A, Toedtli, VE, Kolaczynska, KE, et al. Acute effects of psilocybin after escitalopram or placebo pretreatment in a randomized, double-blind, placebo-controlled, crossover study in healthy subjects. Clin Pharmacol Ther. 2022;111(4):886–95.CrossRefGoogle ScholarPubMed
Barksdale, BR, Doss, MK, Fonzo, GA, Nemeroff, CB. The mechanistic divide in psychedelic neuroscience: an unbridgeable gap? Neurotherapeutics. 2024:e00322.CrossRefGoogle ScholarPubMed
Wall, MB, Harding, R, Zafar, R, Rabiner, EA, Nutt, DJ, Erritzoe, D. Neuroimaging in psychedelic drug development: past, present, and future. Mol Psychiatr. 2023;28(9):3573–80.CrossRefGoogle ScholarPubMed
Swanson, LR. Unifying theories of psychedelic drug effects. Front Pharmacol. 2018:172.CrossRefGoogle ScholarPubMed
Shahrour, G, Sohail, K, Elrais, S, Khan, MH, Javeid, J, Samdani, K, Mansoor, H,Hussain, SI, Sharma, D, Ehsan, M, Nashwan, AJ. MDMA-assisted psychotherapy for the treatment of PTSD: a systematic review and meta-analysis of randomized controlled trials (RCTs). Neuropsychopharmacol Rep. 2024.CrossRefGoogle ScholarPubMed
Kuburi, S, Di Passa, A-M, Tassone, VK, Mahmood, R, Lalovic, A, Ladha, KS, et al. Neuroimaging correlates of treatment response with psychedelics in major depressive disorder: a systematic review. Chronic Stress. 2022;6:24705470221115342.CrossRefGoogle ScholarPubMed
https://www.swisshealthweb.ch/de/article/doi/sanp.2024.1488043038/ Google Scholar
Dixon Ritchie, O, Donley, CN, Dixon Ritchie, G. From prohibited to prescribed: the rescheduling of MDMA and psilocybin in Australia. Drug Sci Policy Law. 2023;9. https://doi.org/10.1177/20503245231198472.Google Scholar
Vollenweider, FX, Preller, KH. Psychedelic drugs: neurobiology and potential for treatment of psychiatric disorders. Nat Rev Neurosci. 2020;21(11):611–24.CrossRefGoogle ScholarPubMed
Carhart-Harris, RL, Friston, KJ. REBUS and the anarchic brain: toward a unified model of the brain action of psychedelics. Pharmacol Rev. 2019;71(3):316–44.CrossRefGoogle Scholar
Doss, MK, Madden, MB, Gaddis, A, Nebel, MB, Griffiths, RR, Mathur, BN, et al. Models of psychedelic drug action: modulation of cortical-subcortical circuits. Brain. 2021;145(2):441–56.CrossRefGoogle Scholar
Mason, N, Kuypers, K, Müller, F, Reckweg, J, Tse, D, Toennes, S, et al. Me, myself, bye: regional alterations in glutamate and the experience of ego dissolution with psilocybin. Neuropsychopharmacology. 2020;45(12):2003–11.CrossRefGoogle ScholarPubMed
De Vos, CM, Mason, NL, Kuypers, KP. Psychedelics and neuroplasticity: a systematic review unraveling the biological underpinnings of psychedelics. Front Psychiatr. 2021;12:724606.CrossRefGoogle ScholarPubMed
Muttoni, S, Ardissino, M, John, C. Classical psychedelics for the treatment of depression and anxiety: a systematic review. J Affect Disord. 2019;258:1124.CrossRefGoogle ScholarPubMed
Preller, KH, Vollenweider, FX. Modulation of social cognition via hallucinogens and “entactogens” Front Psychiatr. 2019;10:881.CrossRefGoogle ScholarPubMed
Madsen, MK, Fisher, PM, Stenbæk, DS, Kristiansen, S, Burmester, D, Lehel, S, et al. A single psilocybin dose is associated with long-term increased mindfulness, preceded by a proportional change in neocortical 5-HT2A receptor binding. Eur Neuropsychopharmacol J Eur Coll Neuropsychopharmacol. 2020;33:7180.CrossRefGoogle ScholarPubMed
Smigielski, L, Kometer, M, Scheidegger, M, Krähenmann, R, Huber, T, Vollenweider, FX. Characterization and prediction of acute and sustained response to psychedelic psilocybin in a mindfulness group retreat. Scient Rep. 2019;9(1):14914.CrossRefGoogle Scholar
Muthukumaraswamy, SD, Forsyth, A, Lumley, T. Blinding and expectancy confounds in psychedelic randomized controlled trials. Exp Rev Clin Pharmacol. 2021;14(9):1133–52.CrossRefGoogle ScholarPubMed
Aday, JS, Heifets, BD, Pratscher, SD, Bradley, E, Rosen, R, Woolley, JD. Great expectations: recommendations for improving the methodological rigor of psychedelic clinical trials. Psychopharmacology. 2022;239(6):19892010.CrossRefGoogle ScholarPubMed
Mertens, LJ, Koslowski, M, Betzler, F, Evens, R, Gilles, M, Jungaberle, A, et al. Methodological challenges in psychedelic drug trials: efficacy and safety of psilocybin in treatment-resistant major depression (EPIsoDE) – rationale and study design. Neurosci Appl. 2022;1:100104.CrossRefGoogle Scholar
Carhart-Harris, R, Giribaldi, B, Watts, R, Baker-Jones, M, Murphy-Beiner, A, Murphy, R, et al. Trial of psilocybin versus escitalopram for depression. N Eng J Med. 2021;384(15):1402–11.CrossRefGoogle ScholarPubMed
Ross, S, Bossis, A, Guss, J, Agin-Liebes, G, Malone, T, Cohen, B, et al. Rapid and sustained symptom reduction following psilocybin treatment for anxiety and depression in patients with life-threatening cancer: a randomized controlled trial. J Psychopharmacol. 2016;30(12):1165–80.CrossRefGoogle ScholarPubMed
Griffiths, RR, Richards, WA, McCann, U, Jesse, R. Psilocybin can occasion mystical-type experiences having substantial and sustained personal meaning and spiritual significance. Psychopharmacology. 2006;187(3):268–83; discussion 84–92.CrossRefGoogle ScholarPubMed
Goodwin, GM, Aaronson, ST, Alvarez, O, Arden, PC, Baker, A, Bennett, JC, et al. Single-dose psilocybin for a treatment-resistant episode of major depression. N Eng J Med. 2022;387(18):1637–48.CrossRefGoogle ScholarPubMed
Bershad, AK, Preller, KH, Lee, R, Keedy, S, Wren-Jarvis, J, Bremmer, MP, et al. Preliminary report on the effects of a low dose of LSD on resting-state Amygdala functional connectivity. Biol Psychiatr Cogn Neurosci Neuroimag. 2020;5(4):461–7.Google ScholarPubMed
Muthukumaraswamy, S, Forsyth, A, Sumner, RL. The challenges ahead for psychedelic ‘medicine’. Aust N Zea J Psychiatr. 2022;56(11):1378–83.CrossRefGoogle ScholarPubMed
Goldberg, SB, Shechet, B, Nicholas, CR, Ng, CW, Deole, G, Chen, Z, et al. Post-acute psychological effects of classical serotonergic psychedelics: a systematic review and meta-analysis. Psychol Med. 2020;50(16):2655–66.CrossRefGoogle ScholarPubMed
Barber, GS, Dike, CC. Ethical and practical considerations for the use of psychedelics in psychiatry. Psychiatr Serv. 2023:appi. ps. 20220525.CrossRefGoogle ScholarPubMed
Carbonaro, T. M. et al. Survey study of challenging experiences after ingesting psilocybin mushrooms: acute and enduring positive and negative consequences. J Psychopharmacol. 30(12):1268–78 (2016).CrossRefGoogle ScholarPubMed
Schlag, AK, Aday, J, Salam, I, Neill, JC, Nutt, DJ. Adverse effects of psychedelics: from anecdotes and misinformation to systematic science. J Psychopharmacol. 2022, Mar;36(3):258272. https://doi.org/10.1177/02698811211069100. Epub 2022 Feb 2. PMID: 35107059; PMCID: PMC8905125.CrossRefGoogle ScholarPubMed
Nutt, D, Crome, I, Young, AH. Is it now time to prepare psychiatry for a psychedelic future? Br J Psychiatr. 2024, May;20:13. https://doi.org/10.1192/bjp.2024.76. Epub ahead of print. PMID: 38764044.Google Scholar
Passie, T, Guss, J, Krähenmann, R. Lower-dose psycholytic therapy–a neglected approach. Front Psychiatr. 2022;13:1020505.CrossRefGoogle ScholarPubMed
Cavarra, M, Falzone, A, Ramaekers, JG, Kuypers, KP, Mento, C. Psychedelic-assisted psychotherapy—a systematic review of associated psychological interventions. Front Psychol. 2022;13:887255.CrossRefGoogle ScholarPubMed
Brennan, W, Belser, AB. Models of psychedelic-assisted psychotherapy: a contemporary assessment and an introduction to EMBARK, a transdiagnostic, trans-drug model. Front Psychol. 2022;13:866018.CrossRefGoogle Scholar
Lewis, BR, Byrne, K, Hendrick, J, Garland, EL, Thielking, P, Beck, A. Group format psychedelic-assisted therapy interventions: observations and impressions from the HOPE trial. J Psyched Stud. 2023;7(1):111.CrossRefGoogle Scholar
Anderson, BT, Danforth, A, Daroff, R, Stauffer, C, Ekman, E, Agin-Liebes, G, et al. Psilocybin-assisted group therapy for demoralized older long-term AIDS survivor men: an open-label safety and feasibility pilot study. eClinicalMedicine. 2020;27.Google ScholarPubMed
Nutt, D, Spriggs, M, Erritzoe, D. Psychedelics therapeutics: what we know, what we think, and what we need to research. Neuropharmacology. 2023;223:109257.CrossRefGoogle ScholarPubMed
Spriggs, MJ, Murphy-Beiner, A, Murphy, R, Bornemann, J, Thurgur, H, Schlag, AK. ARC: a framework for access, reciprocity and conduct in psychedelic therapies. Front Psychol. 2023;14:1119115.CrossRefGoogle ScholarPubMed
Rossell, SL, Meikle, SE, Williams, ML, Castle, DJ. Why didn’t the TGA consult with Australian researchers and clinicians with experience in psilocybin-assisted psychotherapy for treatment-resistant major depressive disorder? Aust N Zea J Psychiatr. 2023;57(7):935–6.CrossRefGoogle ScholarPubMed
McNamee, S, Devenot, N, Buisson, M. Studying harms is key to improving psychedelic-assisted therapy-participants call for changes to research landscape. JAMA Psychiatr. 2023;80(5):411–2.CrossRefGoogle ScholarPubMed
Barber, GS, Dike, CC. Ethical and practical considerations for the use of psychedelics in psychiatry. Psychiatr Serv. 2023;74(8):838–46.CrossRefGoogle ScholarPubMed
Smith, WR, Sisti, D. Ethics and ego dissolution: the case of psilocybin. J Med Ethics. 2020;27. medethics-2020-106070. doi: 10.1136/medethics-2020-106070.Google Scholar
Smith, WR, Appelbaum, PS. Two models of legalization of psychedelic substances: reasons for concern. JAMA J Am Med Assoc. 2021;326(8):697–8.CrossRefGoogle ScholarPubMed
Petranker, R, Anderson, T, Farb, N. Psychedelic research and the need for transparency: polishing Alice’s looking glass. Front Psychol. 2020;11:1681.CrossRefGoogle ScholarPubMed
Marseille, E, Bertozzi, S, Kahn, JG. The economics of psychedelic-assisted therapies: a research agenda. Front Psychiatr. 2022;13:1025726.CrossRefGoogle ScholarPubMed
Passie, T, Brandt, SD. Self-experiments with psychoactive substances: a historical perspective. Handb Exp Pharmacol. 2018;252:69110.CrossRefGoogle ScholarPubMed
Gründer, G, Jungaberle, H. The potential role of psychedelic drugs in mental health care of the future. Pharmacopsychiatry. 2021;54(04):191–9.Google ScholarPubMed
Aday, JS, Carhart-Harris, RL, Woolley, JD. Emerging challenges for psychedelic therapy. JAMA Psychiatr. 2023;80(6):533–4.CrossRefGoogle ScholarPubMed
Butlen-Ducuing, F, Haberkamp, M, Aislaitner, G, Balkowiec-Iskra, E, Mattila, T, Doucet, M, et al. The new European medicines agency guideline on antidepressants: a guide for researchers and drug developers. Eur Psychiatr J Assoc Eur Psychiatr. 2023;67(1):e2.CrossRefGoogle ScholarPubMed
Butlen-Ducuing, F, McCulloch, DE, Haberkamp, M, Mattila, T, Balkowiec-Iskra, E, Aislaitner, G, et al. The therapeutic potential of psychedelics: the European regulatory perspective. Lancet. 2023;401(10378):714–6.CrossRefGoogle ScholarPubMed
Weintraub, MJ, Miklowitz, DJ. How should psychotherapy proceed when adjoined with psychedelics? World Psychiatr Off J World Psychiatr Assoc. 2024;23(1):157–8.Google ScholarPubMed
Visontay, R, Mewton, L, Slade, T, Aris, IM, Sunderland, M. Moderate alcohol consumption and depression: a marginal structural model approach promoting causal inference. Am J Psychiatr. 2023;180(3):209–17.CrossRefGoogle ScholarPubMed
Seybert, C, Cotovio, G, Madeira, L, Ricou, M, Pires, AM, Oliveira-Maia, AJ. Psychedelic treatments for mental health conditions pose challenges for informed consent. Nat Med. 2023;29(9):2167–70.CrossRefGoogle ScholarPubMed
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