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A joint subspace mapping between structural and functional brain connectomes

Sanjay Ghosh, Ashish Raj, Srikantan S. Nagarajan

2023NeuroImage13 citationsDOIOpen Access PDF

Abstract

Understanding the connection between the brain's structural connectivity and its functional connectivity is of immense interest in computational neuroscience. Although some studies have suggested that whole brain functional connectivity is shaped by the underlying structure, the rule by which anatomy constraints brain dynamics remains an open question. In this work, we introduce a computational framework that identifies a joint subspace of eigenmodes for both functional and structural connectomes. We found that a small number of those eigenmodes are sufficient to reconstruct functional connectivity from the structural connectome, thus serving as low-dimensional basis function set. We then develop an algorithm that can estimate the functional eigen spectrum in this joint space from the structural eigen spectrum. By concurrently estimating the joint eigenmodes and the functional eigen spectrum, we can reconstruct a given subject's functional connectivity from their structural connectome. We perform elaborate experiments and demonstrate that the proposed algorithm for estimating functional connectivity from the structural connectome using joint space eigenmodes gives competitive performance as compared to the existing benchmark methods with better interpretability.

Topics & Concepts

ConnectomeComputer scienceInterpretabilitySubspace topologyBenchmark (surveying)Human Connectome ProjectArtificial intelligenceFunctional connectivityJoint (building)Theoretical computer scienceAlgorithmMachine learningNeurosciencePsychologyEngineeringGeodesyGeographyArchitectural engineeringFunctional Brain Connectivity StudiesAdvanced Neuroimaging Techniques and ApplicationsAdvanced MRI Techniques and Applications
A joint subspace mapping between structural and functional brain connectomes | Litcius