Temporal hierarchy of intrinsic neural timescales converges with spatial core-periphery organization
2021
The human cortex exhibits intrinsic neural timescales that shape a temporal hierarchy. Whether this temporal hierarchy follows the spatial hierarchy of core-periphery organization remains an open issue. Using Magnetoencephalography data from the Human Connectome Project, we investigate intrinsic neural timescales during rest and task states; we measure the autocorrelation window in short (ACW-50) and, introducing a novel variant, long (ACW-0) windows. We demonstrate longer ACW-50 and ACW-0 in networks located at the core compared to those at the periphery with rest and task states showing a high ACW correlation. Calculating rest-task differences, i.e., subtracting the shared core-periphery organization, reveals task-specific ACW changes in distinct networks. Finally, employing kernel density estimation, machine learning, and simulation, we demonstrate that ACW-0 exhibits better prediction in classifying a region9s time window as core or periphery. Overall, our findings provide fundamental insight into how the human cortex9s temporal hierarchy converges with its spatial core-periphery hierarchy.
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