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Leading basic modes of spontaneous activity drive individual functional connectivity organization in the resting human brain

Xi Chen, Haoda Ren, Zhonghua Tang, Ke Zhou, Liqin Zhou, Zhentao Zuo, Xiaohua Cui, Xiaosong Chen, Zonghua Liu, Yong He, Xuhong Liao

2023Communications Biology11 citationsDOIOpen Access PDF

Abstract

Spontaneous activity of the human brain provides a window to explore intrinsic principles of functional organization. However, most studies have focused on interregional functional connectivity. The principles underlying rich repertoires of instantaneous activity remain largely unknown. We apply a recently proposed eigen-microstate analysis to three resting-state functional MRI datasets to identify basic modes that represent fundamental activity patterns that coexist over time. We identify five leading basic modes that dominate activity fluctuations. Each mode exhibits a distinct functional system-dependent coactivation pattern and corresponds to specific cognitive profiles. In particular, the spatial pattern of the first leading basis mode shows the separation of activity between the default-mode and primary and attention regions. Based on theoretical modelling, we further reconstruct individual functional connectivity as the weighted superposition of coactivation patterns corresponding to these leading basic modes. Moreover, these leading basic modes capture sleep deprivation-induced changes in brain activity and interregional connectivity, primarily involving the default-mode and task-positive regions. Our findings reveal a dominant set of basic modes of spontaneous activity that reflect multiplexed interregional coordination and drive conventional functional connectivity, furthering the understanding of the functional significance of spontaneous brain activity.

Topics & Concepts

Default mode networkCoactivationNeuroscienceResting state fMRIFunctional connectivityBrain activity and meditationHuman brainCognitionPsychologyComputer scienceCognitive psychologyElectroencephalographyElectromyographyFunctional Brain Connectivity StudiesAdvanced MRI Techniques and ApplicationsNeural dynamics and brain function
Leading basic modes of spontaneous activity drive individual functional connectivity organization in the resting human brain | Litcius