Pupil dilation deconvolution reveals the dynamics of attention at high temporal resolution

Stefan M. Wierda; Hedderik van Rijn; Niels A. Taatgen; Sander Martens

doi:10.1073/pnas.1201858109

Pupil dilation deconvolution reveals the dynamics of attention at high temporal resolution

Stefan M. Wierda^*, Hedderik van Rijn, Niels A. Taatgen, Sander Martens

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

244 Citations (Scopus)

Abstract

The size of the human pupil increases as a function of mental effort. However, this response is slow, and therefore its use is thought to be limited to measurements of slow tasks or tasks in which meaningful events are temporally well separated. Here we show that high-temporal-resolution tracking of attention and cognitive processes can be obtained from the slow pupillary response. Using automated dilation deconvolution, we isolated and tracked the dynamics of attention in a fast-paced temporal attention task, allowing us to uncover the amount of mental activity that is critical for conscious perception of relevant stimuli. We thus found evidence for specific temporal expectancy effects in attention that have eluded detection using neuroimaging methods such as EEG. Combining this approach with other neuroimaging techniques can open many research opportunities to study the temporal dynamics of the mind's inner eye in great detail.

Original language	English
Pages (from-to)	8456-8460
Number of pages	5
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	109
Issue number	22
DOIs	https://doi.org/10.1073/pnas.1201858109
Publication status	Published - 29-May-2012

Keywords

attentional blink
cognitive load
EVENT-RELATED POTENTIALS
LOCUS-COERULEUS
ADAPTIVE GAIN
BLINK
SUPPRESSION
TASK

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Pupil dilation deconvolution reveals the dynamics of attention at high temporal
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title = "Pupil dilation deconvolution reveals the dynamics of attention at high temporal resolution",

abstract = "The size of the human pupil increases as a function of mental effort. However, this response is slow, and therefore its use is thought to be limited to measurements of slow tasks or tasks in which meaningful events are temporally well separated. Here we show that high-temporal-resolution tracking of attention and cognitive processes can be obtained from the slow pupillary response. Using automated dilation deconvolution, we isolated and tracked the dynamics of attention in a fast-paced temporal attention task, allowing us to uncover the amount of mental activity that is critical for conscious perception of relevant stimuli. We thus found evidence for specific temporal expectancy effects in attention that have eluded detection using neuroimaging methods such as EEG. Combining this approach with other neuroimaging techniques can open many research opportunities to study the temporal dynamics of the mind's inner eye in great detail.",

keywords = "attentional blink, cognitive load, EVENT-RELATED POTENTIALS, LOCUS-COERULEUS, ADAPTIVE GAIN, BLINK, SUPPRESSION, TASK",

author = "Wierda, {Stefan M.} and {van Rijn}, Hedderik and Taatgen, {Niels A.} and Sander Martens",

year = "2012",

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doi = "10.1073/pnas.1201858109",

language = "English",

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AU - Wierda, Stefan M.

AU - van Rijn, Hedderik

AU - Taatgen, Niels A.

AU - Martens, Sander

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AB - The size of the human pupil increases as a function of mental effort. However, this response is slow, and therefore its use is thought to be limited to measurements of slow tasks or tasks in which meaningful events are temporally well separated. Here we show that high-temporal-resolution tracking of attention and cognitive processes can be obtained from the slow pupillary response. Using automated dilation deconvolution, we isolated and tracked the dynamics of attention in a fast-paced temporal attention task, allowing us to uncover the amount of mental activity that is critical for conscious perception of relevant stimuli. We thus found evidence for specific temporal expectancy effects in attention that have eluded detection using neuroimaging methods such as EEG. Combining this approach with other neuroimaging techniques can open many research opportunities to study the temporal dynamics of the mind's inner eye in great detail.

KW - attentional blink

KW - cognitive load

KW - EVENT-RELATED POTENTIALS

KW - LOCUS-COERULEUS

KW - ADAPTIVE GAIN

KW - BLINK

KW - SUPPRESSION

KW - TASK

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DO - 10.1073/pnas.1201858109

M3 - Article

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JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 22

ER -

Pupil dilation deconvolution reveals the dynamics of attention at high temporal resolution

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Keywords

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