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The electrofluidic brain as a basement layer for neural computation

V. Srinivasa Chakravarthy, Vigneswaran Chandrasekaran, Nagesh C. Shanbhag
June 19, 2026
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Research Abstract & Technology Focus

This article reappraises brain function by reconsidering the role of cerebral fluid dynamics in cognition. Tracing a lineage from early modern thinkers like Descartes-who invoked hydraulic metaphors and 'animal spirits'-to J.C. Bose's pioneering studies on electro-mechanical plant physiology, and culminating in contemporary findings on cerebrospinal fluid (CSF), extracellular space (ECS), and neurovascular coupling, we reveal a forgotten yet vital computational substrate. We argue that alongside the well-studied digital operations of neural circuits exists a slower, analog, evolutionarily older layer of electrofluidic computation. This system-comprised of ionic diffusion, convective CSF flow, and vascular modulation-not only supports but dynamically shapes neural activity. The brain emerges as an electromechanical ecology of electric pulses and fluid flows, where the mind is both a pattern of neural activity and a choreography of fluid flows.
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What is the core focus of the research titled 'The electrofluidic brain as a basement layer for neural computation'?

This literature focuses on: This article reappraises brain function by reconsidering the role of cerebral fluid dynamics in cognition. Tracing a lineage from early modern thinkers like Descartes-who invoked hydraulic metaphors and 'animal spirits'-to J.C. Bose's pioneering s...

What other academic literature is closely related to 'The electrofluidic brain as a basement layer for neural computation'?

Yes, highly correlated activity was mapped. An entry titled 'Beyond von Neumann Architecture: Brain‐Inspired Artificial Neuromorphic Devices and Integrated Computing' discusses this: AbstractBrain‐inspired parallel computing is increasingly considered a solution to overcome memory bottlenecks, driven by the surge in data volume....

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Yes, highly correlated activity was mapped. An entry titled 'An iontronic reservoir for highly robust neuromorphic prosthesis' discusses this: Achieving robustness against a dynamic physiological environment is a challenge for neuromorphic prostheses. An interface made of a self-healing hy...

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