Different interaction modes for the default mode network revealed by resting state functional magnetic resonance imaging

Nianming Zuo, Ming Song, Lingzhong Fan, Simon B Eickhoff, Tianzi Jiang

The default mode network (DMN), which, in the resting state, is in charge of both the brain's intrinsic mentation and its reflexive responses to external stimuli, is recognized as an essential network in the human brain. These two roles of mentation and reflexive response recruit the DMN nodes and other task networks differently. Existing research has revealed that the interactions inside the DMN (between nodes within the DMN) and outside the DMN (between nodes in the DMN and ones in task networks) have different modes, in terms of both strength and timing. These findings raise interesting questions. For example, are the internal and external interactions of the DMN equally linear or nonlinear? This study examined these interaction patterns using datasets from the Human Connectome Project. A maximal information-based nonparametric exploration statistics strategy was utilized to characterize the full correlations (FC), and the Pearson correlation was used to capture the linear component of the FC. Then we contrasted the level of linearity/nonlinearity with respect to the internal and external interactions of the DMN. After a brain-wide exploration, we found that the interactions between the DMN and the sensorimotor-related networks (including the sensorimotor, sensory association, and integration areas) showed more nonlinearity, whereas the ones between the intra-DMN nodes were comparably less nonlinear. These findings may provide a clue for understanding the underlying neuronal principles of the internal and external roles of the DMN. This article is protected by copyright. All rights reserved.