
TL;DR
This paper proposes a novel framework viewing the brain as a unified spacetime, drawing parallels with relativity, to better understand brain function and dysfunction through a physics-inspired lens.
Contribution
It introduces the concept of a brain 'spacetime' and explores its implications for neurobiology and neuropsychiatric disorders, bridging physics and neuroscience.
Findings
Brain time and space are interconnected like in the universe.
Brain activity may influence the curvature of brain spacetime.
The framework offers new insights into neuropsychiatric disorders.
Abstract
Considering the very large body of knowledge which neuroimaging has put at our fingertips over the last three decades we looked at the brain with a fresh view which could unveil those 'old' things in new ways, in a framework which could help us making predictions tailored made for a scrutiny with the outstanding imaging instruments to come, such as ultra high field MRI. By doing so, switching back and forth between physics and neurobiology, we came across the view that time and space in the brain, as in the Universe, were, indeed, tightly mingled, and could fade away to be unified through a brain 'spacetime'. Considering that there is a speed limit for action potentials flowing along myelinated axons further thinking led us to envision that this 4-dimensional brain spacetime would obey a kind of relativistic pseudo-diffusion principle and present a functional curvature governed by brain…
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