Frontiers in psychiatry

How Psychedelics May Influence Brain Flexibility: A Review of Their Biological Effects

Updated

Abstract

A total of 20 studies indicate that a single administration of psychedelics produces rapid changes in mechanisms.

  • Psychedelics can induce cognitive, antidepressant, anxiolytic, and antiaddictive effects that may arise from biological changes similar to conventional antidepressants.
  • Changes in plasticity-related genes and proteins, including (BDNF), occur after a single psychedelic administration.
  • Single administration results in increased dendritic complexity, which persists beyond the acute effects of the substance.
  • Repeated administration of psychedelics may stimulate neurogenesis and elevate BDNF mRNA levels for up to a month after treatment.
  • The findings suggest that the molecular and cellular adaptations associated with psychedelics could parallel their clinical effects.

Simplified

Key numbers

5 of 24 participants
Increased Levels
Participants receiving a single low dose of LSD showed elevated levels compared to placebo.
20 studies
Studies
The review synthesizes findings from 16 preclinical and 4 clinical studies.
31% survival rate
Increased Neurogenesis
DMT increased survival rates of cultured human iPSCs exposed to severe neuronal stress.

Full Text

What this is

  • This systematic review examines the effects of psychedelics on , focusing on both preclinical and clinical studies.
  • Psychedelics like psilocybin, LSD, DMT, and ayahuasca are linked to changes in brain structure and function.
  • The review evaluates molecular and cellular adaptations induced by psychedelics, suggesting these changes may underlie their therapeutic potential.

Essence

  • Psychedelics induce rapid changes in at molecular and cellular levels, with effects lasting beyond acute administration. These adaptations may contribute to their therapeutic effects in stress-related disorders.

Key takeaways

  • Psychedelics stimulate mechanisms, including changes in gene expression and dendritic complexity, after a single dose. These changes are evident at molecular and cellular levels, suggesting a biological basis for their therapeutic effects.
  • Repeated administration of psychedelics enhances neurogenesis and increases levels of () in the brain. These effects support the potential of psychedelics in treating conditions like depression and anxiety.
  • Clinical studies show that a single dose of psychedelics can elevate levels, correlating with reduced depressive symptoms. However, the relationship between molecular changes and behavioral outcomes requires further investigation.

Caveats

  • Limited clinical studies investigate the long-term effects of psychedelics on , leaving gaps in understanding their sustained impact. More research is needed to clarify the relationship between biological changes and clinical outcomes.
  • The sample sizes in some preclinical studies are small, which may limit the statistical power and reliability of the findings. Larger studies are necessary to validate these results.
  • The review primarily focuses on peripheral levels rather than direct measures from cerebrospinal fluid, which may provide more accurate insights into brain activity.

Definitions

  • neuroplasticity: The brain's ability to change and adapt through structural and functional alterations in response to experiences or stimuli.
  • brain-derived neurotrophic factor (BDNF): A protein that supports neuron survival, growth, and differentiation, playing a crucial role in neuroplasticity and cognitive functions.

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