Electromagnetic Modeling within a Microscopically Realistic Brain - Implications for Brain Stimulation.
Zhen QiGregory M NoetscherAlton MilesKonstantin WeiseThomas R KnöscheCameron R CadmanAlina R PotashinskyKelu LiuWilliam A WartmanGuillermo Nunez PonassoMarom BiksonHanbing LuZhi-De DengAapo R NummenmaaSergey N MakaroffPublished in: bioRxiv : the preprint server for biology (2024)
This study introduces a novel method for modeling perturbations of impressed electric fields within a microscopically realistic brain volume, including densely populated neuronal cells and blood microcapillaries. It addresses a limitation present across decades of macroscopic-level electromagnetic models for electrical stimulation. For the investigated brain volume, our model predicted a neural activation threshold reduction factor of 0.85-0.55 when compared to the macroscopic approach. The present study begins to bridge a long-recognized gap in our analysis of bioelectricity and provides a framework to evaluate (and compensate) for the adequacy of macroscopic models in brain stimulation and electrophysiology.