Issue 10, 2023

Solute transport in the brain tissue: what are the key biophysical parameters tying in vivo and in vitro studies together?

Abstract

The mechanisms of solute transport in brain tissues are still under debate. The medical relevance of this topic has put the blood–brain barrier and the mechanisms of solute transport through the brain parenchyma in the spotlight, notably in the context of brain clearance. In the last decade, the classical view of pure diffusive flow across the brain parenchyma was tested against the recent proposal of an active, convectional fluid flow model known as the glymphatic model. Experimental studies of brain transport on living humans and animals have temporal and spatial limitations to validate any of these models. Therefore, detailed microscopic observations, mostly ex vivo tissue and simplified in vitro brain models with the support from computational models, are necessary to understand transport mechanisms in brain tissues. However, standardization is lacking between these experimental approaches, which tends to limit the generality of conclusions. In this review, we provide an overview of the output and limitations of modern brain solute transport studies to search for key parameters comparable across experimental setups. We emphasize that in vitro models relying on physiological material and reproducing the biophysical setting of the brain, as well as computational/mathematical models constitute powerful solutions to understand the solute transport phenomena inside of the brain tissue. Finally, we suggest the blood–brain barrier permeability and the apparent diffusion coefficient through the brain parenchyma to be robust biophysical parameters for the extraction of cross-model conclusion.

Graphical abstract: Solute transport in the brain tissue: what are the key biophysical parameters tying in vivo and in vitro studies together?

Article information

Article type
Review Article
Submitted
07 Jan 2023
Accepted
25 Mar 2023
First published
04 Apr 2023
This article is Open Access
Creative Commons BY-NC license

Biomater. Sci., 2023,11, 3450-3460

Solute transport in the brain tissue: what are the key biophysical parameters tying in vivo and in vitro studies together?

D. Alcaide, J. Cacheux, A. Bancaud, R. Muramatsu and Y. T. Matsunaga, Biomater. Sci., 2023, 11, 3450 DOI: 10.1039/D3BM00027C

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