期刊
BRAIN STIMULATION
卷 14, 期 4, 页码 990-1001出版社
ELSEVIER SCIENCE INC
DOI: 10.1016/j.brs.2021.06.002
关键词
Vagus nerve; Vagus nerve stimulation; Pupillometry; Noradrenaline; Norepinephrine; Locus coeruleus
资金
- University of Pittsburgh Med-ical Center Rehabilitation Institute
- U.S. Department of Veterans Affairs [IK2RX002837]
The study investigated the acute pupillary responses elicited by transcutaneous stimulation of the external ear, finding that stimulation at different locations can provoke such responses, with effects influenced by pulse amplitude and frequency. Further research is needed to distinguish the roles of vagal and non-vagal afferents in mediating biomarker activation.
Background: Transcutaneous stimulation of the external ear is thought to recruit afferents of the auricular vagus nerve, providing a means to activate noradrenergic pathways in the central nervous system. Findings from human studies examining the effects of auricular stimulation on noradrenergic biomarkers have been mixed, possibly relating to the limited and variable parameter space explored to date. Objective: We tested the extent to which brief pulse trains applied to locations of auricular innervation (canal and concha) elicit acute pupillary responses (PRs) compared to a sham location (lobe). Pulse amplitude and frequency were varied systematically to examine effects on PR features. Methods: Participants (n = 19) underwent testing in three separate experiments, each with stimulation applied to a different external ear location. Perceptual threshold (PT) was measured at the beginning of each experiment. Pulse trains (similar to 600 ms) consisting of different amplitude (0.0xPT, 0.8xPT, 1.0xPT, 1.5xPT, 2.0xPT) and frequency (25 Hz, 300 Hz) combinations were administered during eye tracking procedures. Results: Stimulation to all locations elicited PRs which began approximately halfway through the pulse train and peaked shortly after the final pulse (<= 1 s). PR size and incidence increased with pulse amplitude and tended to be greatest with canal stimulation. Higher pulse frequency shortened the latency of PR onset and peak dilation. Changes in pupil diameter elicited by pulse trains were weakly associated with baseline pupil diameter. Conclusion: (s): Auricular stimulation elicits acute PRs, providing a basis to synchronize neuromodulator release with task-related neural spiking which preclinical studies show is a critical determinant of therapeutic effects. Further work is needed to dissociate contributions from vagal and non-vagal afferents mediating activation of the biomarker. Published by Elsevier Inc.
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