Abstract
Time-varying connectivity analysis based on sources reconstructed using inverse modeling of electroencephalographic (EEG) data is important to understand the dynamic behaviour of the brain. We simulated cortical data from a visual spatial attention network with a time-varying connectivity structure, and then simulated the propagation to the scalp to obtain EEG data. Distributed EEG source modeling using sLORETA was applied. We compared different dipole (representing a source) selection strategies based on their time series in a region of interest. Next, we estimated multivariate autoregressive (MVAR) parameters using classical Kalman filter and general linear Kalman filter approaches followed by the calculation of partial directed coherence (PDC). MVAR parameters and PDC values for the selected sources were compared with the ground-truth. We found that the best strategy to extract the time series of a region of interest was to select a dipole with time series showing the highest correlation with the average time series in the region of interest. Dipole selection based on power or based on the largest singular value offer comparable alternatives. Among the different Kalman filter approaches, the use of a general linear Kalman filter was preferred to estimate PDC based connectivity except when only a small number of trials are available. In the latter case, the classical Kalman filter can be an alternative.
Highlights
Brain function fundamentally relies on the interaction between functional units at different scales
For data driven dipole selection methods, we selected the dominant direction of the dipoles in the region of interest (ROI) without the ground truth knowledge similar to a real experiment
In four ROIs the sign of the dominant direction was opposite to the ground truth direction
Summary
Brain function fundamentally relies on the interaction between functional units at different scales Electrophysiological measures such as electroencephalography (EEG) and magnetoencephalography (MEG) can provide unique insight into the dynamic and directed interactions between anatomical regions, thanks to their high temporal resolution (Leistritz et al 2016; Lopes da Silva 2013). Popular approaches for distributed source modeling are the weighted minimum-norm estimate (Jeffs et al 1987) and standardized low-resolution brain electromagnetic tomography (sLORETA) (Pascual-Marqui 2002). Both methods are widely used to study directed and time-varying EEGbased connectivity between sources (Wang et al 2016; Simpson et al 2011; Hassan and Wendling 2015; Plomp et al 2016; Gao et al 2015; Hassan et al 2014).
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