Litcius/Paper detail

Robust dynamic brain coactivation states estimated in individuals

Xiaomei Peng, Qi Liu, Catherine S. Hubbard, Danhong Wang, Wenzhen Zhu, Michael Fox, Hesheng Liu

2023Science Advances56 citationsDOIOpen Access PDF

Abstract

A confluence of evidence indicates that brain functional connectivity is not static but rather dynamic. Capturing transient network interactions in the individual brain requires a technology that offers sufficient within-subject reliability. Here, we introduce an individualized network-based dynamic analysis technique and demonstrate that it is reliable in detecting subject-specific brain states during both resting state and a cognitively challenging language task. We evaluate the extent to which brain states show hemispheric asymmetries and how various phenotypic factors such as handedness and gender might influence network dynamics, discovering a right-lateralized brain state that occurred more frequently in men than in women and more frequently in right-handed versus left-handed individuals. Longitudinal brain state changes were also shown in 42 patients with subcortical stroke over 6 months. Our approach could quantify subject-specific dynamic brain states and has potential for use in both basic and clinical neuroscience research.

Topics & Concepts

CoactivationDynamic functional connectivityResting state fMRINeuroscienceFunctional connectivityReliability (semiconductor)PsychologyComputer scienceCognitive psychologyPhysicsQuantum mechanicsPower (physics)ElectromyographyFunctional Brain Connectivity StudiesEEG and Brain-Computer InterfacesNeural dynamics and brain function