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Investigating cognitive load modulation of distractor processing using pupillary luminance responses in the anti‐saccade paradigm

Observers must select goal‐directed stimuli in lieu of distractors in the environment for preferential information processing. This selection, according to the load theory of attention, is modulated by cognitive load, involving the frontal cortices, with more significant distractor interference unde...

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Bibliographic Details
Published in:The European journal of neuroscience 2020-08, Vol.52 (3), p.3061-3073
Main Authors: Hsu, Yu‐Fan, Baird, Talia, Wang, Chin‐An
Format: Article
Language:English
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Summary:Observers must select goal‐directed stimuli in lieu of distractors in the environment for preferential information processing. This selection, according to the load theory of attention, is modulated by cognitive load, involving the frontal cortices, with more significant distractor interference under high cognitive load, with strained executive control resources. Evidence in support of this theory exists; however, working memory tasks were predominately used in these investigations. The influence of other types of cognitive load on distractor processing is largely unknown. An interleaved pro‐ and anti‐saccade task has often been used to investigate executive control in which subjects are instructed in advance to either automatically look at the peripheral stimulus (pro‐saccade), or to suppress the automatic response and voluntarily look in the direction opposite of the stimulus (anti‐saccade). Distinct frontal preparatory activity has been clearly characterized during preparation for pro‐ and anti‐saccades, with higher inhibition‐related activity in preparation for anti‐saccades than pro‐saccades. Here, we used an interleaved pro‐ and anti‐saccade paradigm to investigate the modulation of distractor interference by cognitive load in a group of 24 healthy young adults. Luminant distractors were used to evoke automatic pupillary responses to evaluate distractor processing. Greater pupillary dilation following dark distractor presentation was observed in the anti‐saccade than the pro‐saccade preparation. These effects, however, were absent in pupillary constriction following bright distractors. Together, our results support the load theory of attention, importantly highlighting the potential of using involuntary changes in pupil size to objectively investigate attentional selection under load. We used an interleaved pro‐ and anti‐saccade paradigm with the measurement of automatic pupillary responses to luminant distractors to evaluate distractor processing. Greater pupillary dilation following dark distractor presentation was observed in the anti‐saccade than the pro‐saccade preparation. Our results support the load theory of attention and highlight the potential of using involuntary changes in pupil size to objectively investigate attentional selection under load.
ISSN:0953-816X
1460-9568
DOI:10.1111/ejn.14736