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Sympathetic and Parasympathetic Modulation of Pupillary Unrest

Andy Schumann, Stephanie Kietzer, Juliane Ebel, Karl Jürgen Bär

2020Frontiers in Neuroscience38 citationsDOIOpen Access PDF

Abstract

Pupillary unrest is an established indicator of drowsiness or sleepiness. How sympathetic and parasympathetic activity contribute to pupillary unrest is not entirely unclear. In this study, we investigated 83 young healthy volunteers to assess the relationship of pupillary unrest to other markers of the autonomic nervous system. Sample entropy (SE) and the established pupillary unrest index (PUI) were calculated to characterize pupil size variability. Autonomic indices were derived from heart rate, blood pressure, respiration and skin conductance. Additionally, we assessed individual levels of calmness, vigilance and mood. In an independent sample of 26 healthy participants, we stimulated the cardiovagal system by a deep breathing test. Pupillary unrest index (PUI) was related to parasympathetic cardiac indices and sleepiness. A linear combination of vagal heart rate variability (RMSSD) and skin conductance fluctuations was suited best to explain interindividual variance of PUI. Complexity of pupil diameter variations correlated to indices of sympathetic skin conductance. Furthermore, we found that spontaneous fluctuations of skin conductance are accompanied by increases of pupil size. In an independent sample we were able to corroborate the relation of PUI with RMSSD and skin conductance. A slow breathing test enhanced RMSSD and PUI proportionally to each other, while complexity of pupil diameter dynamics decreased. Our data provides suggest that the slow pupil diameter oscillations (f < 0.15 Hz) quantified by PUI are related to the parasympathetic modulation. Sympathetic arousal as detected by skin conductance fluctuations are associated to transient pupil size increases that increase nonlinear pupillary dynamics.

Topics & Concepts

Heart rate variabilityPupillometrySkin conductanceHeart rateAutonomic nervous systemArousalPupillary responseCardiologyPsychologyBlood pressureUnrestInternal medicineMedicineAnesthesiaPupilNeuroscienceBiomedical engineeringPolitical scienceLawPoliticsHeart Rate Variability and Autonomic ControlSleep and Work-Related FatigueNon-Invasive Vital Sign Monitoring