Abstract
Previous researches demonstrate that major depression disorder (MDD) is associated with widespread network dysconnectivity, and the dynamics of functional connectivity networks are important to delineate the neural mechanisms of MDD. Neural oscillations exert a key role in coordinating the activity of remote brain regions, and various assemblies of oscillations can modulate different networks to support different cognitive tasks. Studies have demonstrated that the dysconnectivity of electroencephalography (EEG) oscillatory networks is related with MDD. In this study, we investigated the oscillatory hyperconnectivity and hypoconnectivity networks in MDD under a naturalistic and continuous stimuli condition of music listening. With the assumption that the healthy group and the MDD group share similar brain topology from the same stimuli and also retain individual brain topology for group differences, we applied the coupled nonnegative tensor decomposition algorithm on two adjacency tensors with the dimension of time × frequency × connectivity × subject, and imposed double-coupled constraints on spatial and spectral modes. The music-induced oscillatory networks were identified by a correlation analysis approach based on the permutation test between extracted temporal factors and musical features. We obtained three hyperconnectivity networks from the individual features of MDD and three hypoconnectivity networks from common features. The results demonstrated that the dysfunction of oscillatory networks could affect the involvement in music perception for MDD patients. Those oscillatory dysconnectivity networks may provide promising references to reveal the pathoconnectomics of MDD and potential biomarkers for the diagnosis of MDD.
Highlights
M AJOR depression disorder (MDD) is a globally common psychiatric disorder characterized by deficits of affective and cognitive functions [1]–[3]
This is termed as dynamic functional connectivity, and it represents the processes by which networks and subnetworks coalesce and dissolve over time, or cross-talk between networks [11]–[13]
As far as we know, this study is the first attempt to investigate the aberrant dynamic functional connectivity (dFC) across temporal evolution and spectral modulation in MDD during music listening based on a coupled tensor decomposition approach
Summary
M AJOR depression disorder (MDD) is a globally common psychiatric disorder characterized by deficits of affective and cognitive functions [1]–[3]. It is almost a consensus to researchers that MDD is accompanied by abnormal functional connectivity (FC) between some brain regions, like cortical regions in the default mode network (DMN), rather than the aberrant response of individual brain regions [3]– [6]. An increasing amount of researches have demonstrated that FC presents the potential of temporal variability across different time-scales (from milliseconds to minutes) to support continuous cognitive tasks. This is termed as dynamic functional connectivity (dFC), and it represents the processes by which networks and subnetworks coalesce and dissolve over time, or cross-talk between networks [11]–[13]. Kaiser et al showed that MDD patients presented decreased dFC between medial prefrontal cortical (MPFC)
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