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Article Dans Une Revue Frontiers in Computational Neuroscience Année : 2023

Enhanced simulations of whole-brain dynamics using hybrid resting-state structural connectomes

Résumé

The human brain, composed of billions of neurons and synaptic connections, is an intricate network coordinating a sophisticated balance of excitatory and inhibitory activity between brain regions. The dynamical balance between excitation and inhibition is vital for adjusting neural input/output relationships in cortical networks and regulating the dynamic range of their responses to stimuli. To infer this balance using connectomics, we recently introduced a computational framework based on the Ising model, first developed to explain phase transitions in ferromagnets, and proposed a novel hybrid resting-state structural connectome (rsSC). Here, we show that a generative model based on the Kuramoto phase oscillator can be used to simulate static and dynamic functional connectomes (FC) with rsSC as the coupling weight coefficients, such that the simulated FC well aligns with the observed FC when compared to that simulated with traditional structural connectome. Simulations were performed using the open source framework The Virtual Brain on High Performance Computing infrastructure.
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Dates et versions

hal-04310712 , version 1 (27-11-2023)
hal-04310712 , version 2 (05-12-2023)
hal-04310712 , version 3 (11-12-2023)

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Citer

Thanos Manos, Sandra Diaz-Pier, Igor Fortel, Ira Driscoll, Liang Zhan, et al.. Enhanced simulations of whole-brain dynamics using hybrid resting-state structural connectomes. Frontiers in Computational Neuroscience, 2023, 17, pp.1295395. ⟨10.1101/2023.02.16.528836⟩. ⟨hal-04310712v3⟩
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