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Dissociable mappings of tonic and phasic pupillary features onto cognitive processes involved in mental arithmetic

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  • Russell A Cohen Hoffing
  • Nina Lauharatanahirun
  • Daniel E Forster
  • Javier O Garcia
  • Jean M Vettel
  • Steven M Thurman

Abstract

Pupil size modulations have been used for decades as a window into the mind, and several pupillary features have been implicated in a variety of cognitive processes. Thus, a general challenge facing the field of pupillometry has been understanding which pupil features should be most relevant for explaining behavior in a given task domain. In the present study, a longitudinal design was employed where participants completed 8 biweekly sessions of a classic mental arithmetic task for the purposes of teasing apart the relationships between tonic/phasic pupil features (baseline, peak amplitude, peak latency) and two task-related cognitive processes including mental processing load (indexed by math question difficulty) and decision making (indexed by response times). We used multi-level modeling to account for individual variation while identifying pupil-to-behavior relationships at the single-trial and between-session levels. We show a dissociation between phasic and tonic features with peak amplitude and latency (but not baseline) driven by ongoing task-related processing, whereas baseline was driven by state-level effects that changed over a longer time period (i.e. weeks). Finally, we report a dissociation between peak amplitude and latency whereby amplitude reflected surprise and processing load, and latency reflected decision making times.

Suggested Citation

  • Russell A Cohen Hoffing & Nina Lauharatanahirun & Daniel E Forster & Javier O Garcia & Jean M Vettel & Steven M Thurman, 2020. "Dissociable mappings of tonic and phasic pupillary features onto cognitive processes involved in mental arithmetic," PLOS ONE, Public Library of Science, vol. 15(3), pages 1-14, March.
    • Handle: RePEc:plo:pone00:0230517
    DOI: 10.1371/journal.pone.0230517
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    References listed on IDEAS

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    1. Ruud L van den Brink & Peter R Murphy & Sander Nieuwenhuis, 2016. "Pupil Diameter Tracks Lapses of Attention," PLOS ONE, Public Library of Science, vol. 11(10), pages 1-16, October.
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