期刊
AUTONOMIC NEUROSCIENCE-BASIC & CLINICAL
卷 236, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.autneu.2021.102894
关键词
Auricular stimulation; Transcutaneous auricular vagus nerve; stimulation; Non-invasive vagus nerve stimulation; Heart rate variability; Autonomic nervous system
资金
- German Federal Ministry of Education and Research [BMBF 13GW0270B]
- Open Access Publishing Fund of the University of Tuebingen
The study demonstrates that transcutaneous auricular vagus nerve stimulation can increase heart rate variability, with effects influenced by stimulation location and parameters. Adjusting pulse duration and current intensity can effectively enhance heart rate variability. The results suggest that the cymba conchae and fossa triangularis are the most effective stimulation targets.
Objectives: Transcutaneous auricular vagus nerve stimulation (taVNS) modulates central and peripheral neurophysiology. Specifically, taVNS increases heart rate variability (HRV) indicating a shift in autonomic function towards parasympathetic predominance. However, knowledge on the influence of stimulation parameters and targets is scarce. We hypothesized that the location and charge per phase of taVNS influences HRV. Materials and methods: In thirteen healthy subjects, six different stimulation targets were investigated, i.e., cymba conchae, cavum conchae, outer tragus, inner tragus, crus helicis, and fossa triangularis. At each target, 24 parameter combinations were studied: Eight different electrical charges per phase were evaluated by investigating three pulse durations and eight charge-balanced current intensities, i.e., 100 mu s (0.250-2 mA in steps of 0.250 mA), 260 mu s (0.096-0.769 mA in steps of 0.096 mA), and 500 mu s (0.050-0.400 mA in steps of 0.050 mA). In a parallel group design, left and right taVNS were compared to each other. 30 bursts at each parameter combination were applied with a periodicity of 1 Hz. Each burst consisted of five pulses applied at 25 Hz. Results: HRV increased in a charge-dependent way with significant differences between the right and left ear. The targets with the strongest effects were the cymba conchae and fossa triangularis, and to a lesser extent the inner tragus. Conclusions: HRV is suitable to define taVNS parameters and targets for research and therapeutic purposes. Bursts of taVNS with a pulse duration of 100 mu s and a current intensity of 2 mA are comfortable for the participants and effective in increasing HRV when applied at specific auricular locations. These findings need to be replicated in larger cohorts, and with longer stimulation and off-periods between conditions. Since results may differ in conditions with an impaired autonomic tone, future studies should also consider aged and patient populations.
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