Developmental Cognitive Neuroscience (Oct 2023)

Developmental alterations in the neural oscillatory dynamics underlying attentional reorienting

  • Giorgia Picci,
  • Lauren R. Ott,
  • Nathan M. Petro,
  • Chloe C. Casagrande,
  • Abraham D. Killanin,
  • Danielle L. Rice,
  • Anna T. Coutant,
  • Yasra Arif,
  • Christine M. Embury,
  • Hannah J. Okelberry,
  • Hallie J. Johnson,
  • Seth D. Springer,
  • Haley R. Pulliam,
  • Yu-Ping Wang,
  • Vince D. Calhoun,
  • Julia M. Stephen,
  • Elizabeth Heinrichs-Graham,
  • Brittany K. Taylor,
  • Tony W. Wilson

Journal volume & issue
Vol. 63
p. 101288

Abstract

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The neural and cognitive processes underlying the flexible allocation of attention undergo a protracted developmental course with changes occurring throughout adolescence. Despite documented age-related improvements in attentional reorienting throughout childhood and adolescence, the neural correlates underlying such changes in reorienting remain unclear. Herein, we used magnetoencephalography (MEG) to examine neural dynamics during a Posner attention-reorienting task in 80 healthy youth (6–14 years old). The MEG data were examined in the time-frequency domain and significant oscillatory responses were imaged in anatomical space. During the reorienting of attention, youth recruited a distributed network of regions in the fronto-parietal network, along with higher-order visual regions within the theta (3–7 Hz) and alpha-beta (10–24 Hz) spectral windows. Beyond the expected developmental improvements in behavioral performance, we found stronger theta oscillatory activity as a function of age across a network of prefrontal brain regions irrespective of condition, as well as more limited age- and validity-related effects for alpha-beta responses. Distinct brain-behavior associations between theta oscillations and attention-related symptomology were also uncovered across a network of brain regions. Taken together, these data are the first to demonstrate developmental effects in the spectrally-specific neural oscillations serving the flexible allocation of attention.

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