Neural Geometrodynamics, Complexity, and Plasticity: A Psychedelics Perspective

We explore the intersection of neural dynamics and the effects of psychedelics in light of distinct timescales in a framework integrating concepts from dynamics, complexity, and plasticity. We call this framework neural geometrodynamics for its parallels with general relativity's description of...

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Bibliographic Details
Published in:Entropy (Basel, Switzerland) Switzerland), 2024-01, Vol.26 (1), p.90
Main Authors: Ruffini, Giulio, Lopez-Sola, Edmundo, Vohryzek, Jakub, Sanchez-Todo, Roser
Format: Article
Language:English
Subjects:
Complexity
Critical phenomena
Differential equations
Dynamics
Electroconvulsive therapy
Emotional disorders
Entropy
Functional integration
Medical imaging
Mood disorders
Neurophysiology
Phase transitions
plasticity
Psychedelic drugs
psychedelics
Relativity
Statistical mechanics
Theory of relativity
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Summary:We explore the intersection of neural dynamics and the effects of psychedelics in light of distinct timescales in a framework integrating concepts from dynamics, complexity, and plasticity. We call this framework neural geometrodynamics for its parallels with general relativity's description of the interplay of spacetime and matter. The geometry of trajectories within the dynamical landscape of "fast time" dynamics are shaped by the structure of a differential equation and its connectivity parameters, which themselves evolve over "slow time" driven by state-dependent and state-independent plasticity mechanisms. Finally, the adjustment of plasticity processes (metaplasticity) takes place in an "ultraslow" time scale. Psychedelics flatten the neural landscape, leading to heightened entropy and complexity of neural dynamics, as observed in neuroimaging and modeling studies linking increases in complexity with a disruption of functional integration. We highlight the relationship between criticality, the complexity of fast neural dynamics, and synaptic plasticity. Pathological, rigid, or "canalized" neural dynamics result in an ultrastable confined repertoire, allowing slower plastic changes to consolidate them further. However, under the influence of psychedelics, the destabilizing emergence of complex dynamics leads to a more fluid and adaptable neural state in a process that is amplified by the plasticity-enhancing effects of psychedelics. This shift manifests as an acute systemic increase of disorder and a possibly longer-lasting increase in complexity affecting both short-term dynamics and long-term plastic processes. Our framework offers a holistic perspective on the acute effects of these substances and their potential long-term impacts on neural structure and function.
ISSN:1099-4300
1099-4300
DOI:10.3390/e26010090