4.7 Article

Single trial variability in neural activity during a working memory task reveals multiple distinct information processing sequences

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NEUROIMAGE
卷 269, 期 -, 页码 -

出版社

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.neuroimage.2023.119895

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Working memory; Single trial variability; Clustering; Event-related potentials

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Successful encoding, maintenance, and retrieval of information in working memory rely on the coordination of multiple brain regions. Trial-to-trial variability in neural activity during working memory tasks represents fluctuations in the engagement of distinct brain networks and cognitive processes. This study identifies three sub-types of trials with different patterns of activation using a data-driven classification method based on community detection, providing evidence that the brain can utilize multiple mechanisms to perform a given task.
Successful encoding, maintenance, and retrieval of information stored in working memory requires persistent co-ordination of activity among multiple brain regions. It is generally assumed that the pattern of such coordinated activity remains consistent for a given task. Thus, to separate this task-relevant signal from noise, multiple trials of the same task are completed, and the neural response is averaged across trials to generate an event-related potential (ERP). However, from trial to trial, the neuronal activity recorded with electroencephalogram (EEG) is actually spatially and temporally diverse, conflicting with the assumption of a single pattern of activity for a given task. Here, we show that variability in neuronal activity among single time-locked trials arises from the presence of multiple forms of stimulus dependent synchronized activity (i.e., distinct ERPs). We develop a data-driven classification method based on community detection to identify three discrete spatio-temporal clusters, or sub-types, of trials with different patterns of activation that are further associated with differences in decision-making processes. These results demonstrate that differences in the patterns of neural activity during working memory tasks represent fluctuations in the engagement of distinct brain networks and cognitive processes, suggesting that the brain can choose from multiple mechanisms to perform a given task.

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