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Parietal cortical alpha/beta suppression during prospective memory retrieval

Villafane Barraza, V., Voegtle, A., de Matos Mansur, B., Reichert, C., Nasuto, S. J. and Sweeney-Reed, C. M. (2023) Parietal cortical alpha/beta suppression during prospective memory retrieval. Cerebral Cortex, 33 (23). pp. 11235-11246. ISSN 1460-2199

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To link to this item DOI: 10.1093/cercor/bhad359

Abstract/Summary

Prospective memory (PM) impairment is among the most frequent memory complaints, yet little is known about the underlying neural mechanisms. PM for a planned intention may be achieved through strategic monitoring of the environment for cues, involving ongoing attentional processes, or through spontaneous retrieval. We hypothesized that parietal spectral power modulation accompanies prospectively encoded intention retrieval, irrespective of PM retrieval approach. A cognitively engaging arithmetic-based ongoing task (OGT) was employed to encourage spontaneous retrieval, with a focal, internally generated PM cue to eliminate OGT/PM trial differentiation based on perceptual or conceptual PM cue features. Two PM repetition frequencies were used to vary the extent of strategic monitoring. We observed a transient parietal alpha/beta spectral power reduction directly preceding the response, which was distinguishable on a single trial basis, as revealed by an OGT/PM trial classification rate exceeding 70% using linear discriminant analysis. The alpha/beta idling rhythm reflects cortical inhibition. A disengagement of task-relevant neural assemblies from this rhythm, reflected in alpha/beta power reduction, is deemed to increase information content, facilitate information integration, and enable engagement of neural assemblies in task-related cortical networks. The observed power reduction is consistent with the Dual Pathways model, where PM strategies converge at the PM retrieval stage.

Item Type:Article
Refereed:Yes
Divisions:Life Sciences > School of Biological Sciences > Biomedical Sciences
Life Sciences > School of Biological Sciences > Department of Bio-Engineering
ID Code:113663
Uncontrolled Keywords:Cellular and Molecular Neuroscience, Cognitive Neuroscience
Publisher:Oxford University Press

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