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Selective Attention and Decision-Making Have Separable Neural Bases in Space and Time

Psychology

Selective Attention and Decision-Making Have Separable Neural Bases in Space and Time

D. Moerel, A. N. Rich, et al.

Research conducted by Denise Moerel, Anina N. Rich, and Alexandra Woolgar separates selective attention from decision-making using a two-stage task and multimodal neuroimaging. The study reveals attention boosts stimulus representations in early visual and frontoparietal regions before decisions begin, highlighting attention’s independent role in neural coding.

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~3 min • Beginner • English
Abstract
Attention and decision-making processes are fundamental to cognition. However, they are usually experimentally confounded, making it difficult to link neural observations to specific processes. Here we separated the effects of selective attention from the effects of decision-making on brain activity obtained from human participants (both sexes), using a two-stage task where the attended stimulus and decision were orthogonal and separated in time. Multivariate pattern analyses of multimodal neuroimaging data revealed the dynamics of perceptual and decision-related information coding through time with magnetoencephalography (MEG), through space with functional magnetic resonance imaging (fMRI), and their combination (MEG-fMRI fusion). Our MEG results showed an effect of attention before decision-making could begin, and fMRI results showed an attention effect in early visual and frontoparietal regions. Model-based MEG-fMRI fusion suggested that attention boosted stimulus information in the frontoparietal and early visual regions before decision-making was possible. Together, our results suggest that attention affects neural stimulus representations in the frontoparietal regions independent of decision-making.
Publisher
The Journal of Neuroscience
Published On
Sep 18, 2024
Authors
Denise Moerel, Anina N. Rich, Alexandra Woolgar
Tags
selective attention
decision-making
MEG
fMRI
multimodal neuroimaging
frontoparietal cortex
neural stimulus representations
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