Litcius/Paper detail

Inferring excitation-inhibition dynamics using a maximum entropy model unifying brain structure and function

Igor Fortel, Mitchell Butler, Laura E. Korthauer, Liang Zhan, Olusola Ajilore, Anastasios Sidiropoulos, Yichao Wu, Ira Driscoll, Dan Schonfeld, Alex Leow

2021Network Neuroscience19 citationsDOIOpen Access PDF

Abstract

Neural activity coordinated across different scales from neuronal circuits to large-scale brain networks gives rise to complex cognitive functions. Bridging the gap between micro- and macroscale processes, we present a novel framework based on the maximum entropy model to infer a hybrid resting-state structural connectome, representing functional interactions constrained by structural connectivity. We demonstrate that the structurally informed network outperforms the unconstrained model in simulating brain dynamics, wherein by constraining the inference model with the network structure we may improve the estimation of pairwise BOLD signal interactions. Further, we simulate brain network dynamics using Monte Carlo simulations with the new hybrid connectome to probe connectome-level differences in excitation-inhibition balance between apolipoprotein E (APOE)-ε4 carriers and noncarriers. Our results reveal sex differences among APOE-ε4 carriers in functional dynamics at criticality; specifically, female carriers appear to exhibit a lower tolerance to network disruptions resulting from increased excitatory interactions. In sum, the new multimodal network explored here enables analysis of brain dynamics through the integration of structure and function, providing insight into the complex interactions underlying neural activity such as the balance of excitation and inhibition.

Topics & Concepts

ConnectomeComputer scienceHuman Connectome ProjectPrinciple of maximum entropyResting state fMRIPairwise comparisonNeuroscienceConnectomicsStatistical physicsBrain functionInferenceNetwork dynamicsArtificial intelligencePhysicsMathematicsPsychologyFunctional connectivityDiscrete mathematicsFunctional Brain Connectivity StudiesNeural dynamics and brain functionPhotoreceptor and optogenetics research