Objective: Mechanisms of action and optimal stimulation parameters of transcutaneous auricular vagus nerve stimulation (taVNS) are currently unknown. Pupil size has gained attention as a promising biomarker of vagal activation in different studies on animal models. The aim of this study is to investigate the effects of taVNS on pupil diameter in healthy subjects.
Methods: All subjects received taVNS at the left external acoustic meatus and control stimulation at the left earlobe during the same experimental session. Different intensities (0.5 mA; 1.0 mA; 2.0 mA; 3.0 mA) for both conditions were tested. Tonic pupil size was recorded in both eyes at baseline and during each stimulation using an infrared-automated pupillometer in three different illuminance conditions (scotopic, mesopic, photopic).
Results: In scotopic illuminance condition, a significant interaction between intensity and condition (real vs control) was found for the left eye. Post-Hoc analysis showed that during real taVNS at 2 mA, pupil size was significantly larger in comparison to baseline and 2 mA control stimulation.
Conclusions: Our study demonstrates that taVNS induces pupil dilation under specific illuminance conditions and at specific stimulation intensity.
Significance: The effects of taVNS are strictly dependent on technical aspects, such as stimulation parameters and experimental set-up.
Keywords: Locus coeruleus; Non-invasive brain stimulation; Pupil size; Transcutaneous vagal nerve stimulation; taVNS.
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