Multi-Scale Spiking Network Model of Human Cerebral Cortex

Author:

Pronold JariORCID,van Meegen AlexanderORCID,Vollenbröker HannahORCID,Shimoura Renan O.ORCID,Senden MarioORCID,Hilgetag Claus C.ORCID,Bakker RembrandtORCID,van Albada Sacha J.ORCID

Abstract

AbstractAlthough the structure of cortical networks provides the necessary substrate for their neuronal activity, the structure alone does not suffice to understand it. Leveraging the increasing availability of human data, we developed a multi-scale, spiking network model of human cortex to investigate the relationship between structure and dynamics. In this model, each area in one hemisphere of the Desikan-Killiany parcellation is represented by a 1 mm2column with a layered structure. The model aggregates data across multiple modalities, including electron microscopy, electrophysiology, morphological reconstructions, and DTI, into a coherent framework. It predicts activity on all scales from the single-neuron spiking activity to the area-level functional connectivity. We compared the model activity against human electrophysiological data and human resting-state fMRI data. This comparison reveals that the model can reproduce aspects of both spiking statistics and fMRI correlations if the cortico-cortical connections are sufficiently strong. Furthermore, we show that a single-spike perturbation propagates through the network within a time close to the limit imposed by the delays.

Publisher

Cold Spring Harbor Laboratory

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