4.7 Article

Temporal hierarchy of intrinsic neural timescales converges with spatial core-periphery organization

期刊

COMMUNICATIONS BIOLOGY
卷 4, 期 1, 页码 -

出版社

NATURE RESEARCH
DOI: 10.1038/s42003-021-01785-z

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资金

  1. European Union [785907]
  2. UMRF
  3. uOBMRI
  4. CIHR
  5. PSI
  6. NSERC [ES/T01279X/1]
  7. SHERRC [ES/T01279X/1]
  8. CIHR [ES/T01279X/1]

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Golesorkhi et al. investigate intrinsic neural timescales during resting and task states using a combination of magnetoencephalography data, machine learning, and simulation. They provide insights into how the temporal hierarchy of the human cortex intersects with its spatial core-periphery hierarchy.
The human cortex exhibits intrinsic neural timescales that shape a temporal hierarchy. Whether this temporal hierarchy follows the spatial hierarchy of its topography, namely the core-periphery organization, remains an open issue. Using magnetoencephalography data, 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 region's time window as core or periphery. Overall, our findings provide fundamental insight into how the human cortex's temporal hierarchy converges with its spatial core-periphery hierarchy. Golesorkhi et al. use a combination of magnetoencephalography data, machine learning and simulation to investigate intrinsic neural timescales during resting and task states. They provide insight into how the temporal hierarchy of the human cortex converges with its spatial core-periphery hierarchy.

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