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Sensitivity suppression during attention shifts

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  • Visual sensitivity is transiently suppressed during attention shifts, demonstrated with pupillometry and MEG using an attentional oscillation paradigm.
  • Suppression is not explained by microsaccades and is absent during rhythmic attentional sampling without spatial shifts.
  • MEG localises stronger suppression to parietal channels at 150 to 200 ms, indicating a late, distinct mechanism from saccadic suppression.
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Proc Natl Acad Sci U S A. 2026 Jul 7;123(27):e2530939123. doi: 10.1073/pnas.2530939123. Epub 2026 Jun 30.

ABSTRACT

The brain possesses the remarkable ability to suppress undesirable signals generated by our own actions to ensure accurate perception, like the suppression of retinal motion signals during rapid eye movements, known as saccadic suppression. Attention, often referred to as the “mind’s eye,” undergoes rapid and frequent shifts, often occurring in the absence of explicit motor actions. Is visual processing similarly suppressed during attention shifts? In this study, we employed pupillometry and magnetoencephalography (MEG) to assess visual sensitivity across different attentional states. Our results revealed a reduced or suppressed visual sensitivity during attention shifts through an attentional oscillation paradigm. Such suppression was not due to microsaccades and was absent during rhythmic attentional sampling without spatial shift. MEG data further indicated that the suppression was more pronounced in parietal channels, manifesting at a relatively late stage (150 to 200 ms) of visual processing and suggesting a distinct neural mechanism compared to saccadic suppression. Our findings indicate that suppression mechanisms operate not only when there are spurious signals generated due to the movements of the sensors, but also during transitional states in the allocation of cognitive resources within representational space, thereby supporting stability of visual processing.

PMID:42378283 | DOI:10.1073/pnas.2530939123

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