Pupillometry as an integrated readout of distinct attentional networks
Publication date
2022-08
Authors
Strauch, Christoph
Wang, Chin-An
Einhäuser, Wolfgang
van der Stigchel, Stefan
Naber, Marnix
Editors
Advisors
Supervisors
Document Type
Article
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cc_by_nc
Abstract
The course of pupillary constriction and dilation provides an easy-to-access, inexpensive, and noninvasive readout of brain activity. We propose a new taxonomy of factors affecting the pupil and link these to associated neural underpinnings in an ascending hierarchy. In addition to two well-established low-level factors (light level and focal distance), we suggest two further intermediate-level factors, alerting and orienting, and a higher-level factor, executive functioning. Alerting, orienting, and executive functioning – including their respective underlying neural circuitries – overlap with the three principal attentional networks, making pupil size an integrated readout of distinct states of attention. As a now widespread technique, pupillometry is ready to provide meaningful applications and constitutes a viable part of the psychophysiological toolbox.
Keywords
alerting, executive function, locus coeruleus, orienting, superior colliculus, The AAM includes a Rights Retention Statement, General Neuroscience
Citation
Strauch, C, Wang, C-A, Einhäuser, W, van der Stigchel, S & Naber, M 2022, 'Pupillometry as an integrated readout of distinct attentional networks', Trends in Neurosciences, vol. 45, no. 8, pp. 635-647. https://doi.org/10.1016/j.tins.2022.05.003