Depressive DisordersNeuroimaging & Brain MeasuresMicrodosingKetamine

A unified model of ketamine’s dissociative and psychedelic properties

The paper presents a unified multi-level model in which ketamine’s rapid antidepressant effects stem from acute modulation of reward circuits and a sub-acute increase in neuroplasticity, while its dissociative versus psychedelic phenomenology reflects dose- and context-dependent desegregation/disintegration of the salience network (SN) and default-mode network (DMN), respectively. Computationally, SN nodes are framed as priors about the ‘minimal’ self and DMN nodes as priors about the ‘biographical’ self, and the authors argue that relaxing high-level priors during psychedelic-assisted psychotherapy, aided by neuroplasticity, may permit revision of pathological self-models and boost long-term benefit.

Authors

  • Marguilho, M.
  • Figueiredo, I.
  • Castro-Rodrigues, P.

Published

Journal of Psychopharmacology
individual Study

Abstract

Ketamine is an N-methyl-d-aspartate antagonist which is increasingly being researched and used as a treatment for depression. In low doses, it can cause a transitory modification in consciousness which was classically labelled as ‘dissociation’. However, ketamine is also commonly classified as an atypical psychedelic and it has been recently reported that ego dissolution experiences during ketamine administration are associated with greater antidepressant response. Neuroimaging studies have highlighted several similarities between the effects of ketamine and those of serotonergic psychedelics in the brain; however, no unified account has been proposed for ketamine’s multi-level effects – from molecular to network and psychological levels. Here, we propose that the fast, albeit transient, antidepressant effects observed after ketamine infusions are mainly driven by its acute modulation of reward circuits and sub-acute increase in neuroplasticity, while its dissociative and psychedelic properties are driven by dose- and context-dependent disruption of large-scale functional networks. Computationally, as nodes of the salience network (SN) represent high-level priors about the body (‘minimal’ self) and nodes of the default-mode network (DMN) represent the highest-level priors about narrative self-experience (‘biographical’ self), we propose that transitory SN desegregation and disintegration accounts for ketamine’s ‘ dissociative’ state, while transitory DMN desegregation and disintegration accounts for ketamine’s ‘ psychedelic’ state. In psychedelic-assisted psychotherapy, a relaxation of the highest-level beliefs with psychotherapeutic support may allow a revision of pathological self-representation models, for which neuroplasticity plays a permissive role. Our account provides a multi-level rationale for using the psychedelic properties of ketamine to increase its long-term benefits.

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Research Summary of 'A unified model of ketamine’s dissociative and psychedelic properties'

Editorial

βBlossom's Take

This is a useful integrative model because it tries to explain ketamine's antidepressant, dissociative and psychedelic features within one account rather than treating them as separate quirks. The value is not that it settles mechanism, but that it gives a clear language for linking acute experience, network effects and longer-term benefit in ketamine studies.

Study Details

Cited By (4)

Papers in Blossom that reference this study

Detecting neuroplastic effects induced by ketamine in healthy human subjects: A multimodal approach

Agnorelli, C., Peill, J., Sawicka, G. et al. · Journal of Cerebral Blood Flow and Metabolism (2026)

Ketamine-assisted psychotherapy treatment of chronic pain and comorbid depression: a pilot study of two approaches

Batievsky, D., Weiner, M., Kaplan, S. B. et al. · Frontiers in Pain Research (2023)

7 cited