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Imitating and exploring the human brain's resting and task-performing states via brain computing: scaling and architecture

Wenlian Lu, Longbin Zeng, Jiexiang Wang, Shitong Xiang, Yang Qi, Qibao Zheng, Ningsheng Xu, Jianfeng Feng

2024National Science Review18 citationsDOIOpen Access PDF

Abstract

A computational human brain model with the voxel-wise assimilation method was established based on individual structural and functional imaging data. We found that the more similar the brain model is to the biological counterpart in both scale and architecture, the more similarity was found between the assimilated model and the biological brain both in resting states and during tasks by quantitative metrics. The hypothesis that resting state activity reflects internal body states was validated by the interoceptive circuit's capability to enhance the similarity between the simulation model and the biological brain. We identified that the removal of connections from the primary visual cortex (V1) to downstream visual pathways significantly decreased the similarity at the hippocampus between the model and its biological counterpart, despite a slight influence on the whole brain. In conclusion, the model and methodology present a solid quantitative framework for a digital twin brain for discovering the relationship between brain architecture and functions, and for digitally trying and testing diverse cognitive, medical and lesioning approaches that would otherwise be unfeasible in real subjects.

Topics & Concepts

Similarity (geometry)Resting state fMRIHuman brainComputer scienceBrain activity and meditationVisual cortexVoxelArchitectureNeuroscienceScalingCognitionHippocampusArtificial intelligencePsychologyElectroencephalographyMathematicsImage (mathematics)ArtGeometryVisual artsFunctional Brain Connectivity StudiesNeural dynamics and brain functionEEG and Brain-Computer Interfaces
Imitating and exploring the human brain's resting and task-performing states via brain computing: scaling and architecture | Litcius