AbstractBackgroundVagus nerve stimulation (VNS) is an emerging electroceutical therapy for remedying gastric disorders that are poorly managed by pharmacological treatments and/or dietary changes. Such therapy seems promising since the vagovagal neurocircuitry controlling the enteric nervous system strongly influences gastric functions.MethodsHere, the modulatory effects of left cervical VNS on gastric emptying in rats was quantified using a 1) feeding protocol in which the animal voluntarily consumed a post-fast, gadolinium-labeled meal and 2) newly developed, robust, sensitive and non-invasive imaging strategy to measure antral motility, pyloric activity and gastric emptying based on contrast-enhanced magnetic resonance imaging (MRI) and computer-assisted image processing pipelines.Key ResultsVNS significantly accelerated gastric emptying (control vs. VNS: 24.9±3.5% vs. 40.7±3.9% of meal emptied per 4hrs, p<0.05). This effect resulted from a greater relaxation of the pyloric sphincter (control vs. VNS: 1.4±0.2 vs. 2.5±0.5 mm2cross-sectional area of lumen, p<0.05), without notable changes in antral contraction amplitude (control vs. VNS: 30.6±3.0% vs. 32.5±3.0% occlusion), peristaltic velocity (control vs. VNS: 0.67±0.03 vs. 0.67±0.03 mm/s), or frequency (control vs. VNS: 6.3±0.1 vs. 6.4±0.2 cpm). The degree to which VNS relaxed the pylorus positively correlated with gastric emptying rate (r = 0.5465, p<0.01).Conclusions & InferencesThe MRI protocol employed in this study is expected to enable advanced preclinical studies to understand stomach pathophysiology and its therapeutics. Results from this study suggest an electroceutical treatment approach for gastric emptying disorders using cervical VNS to control the degree of pyloric sphincter relaxation.Key PointsVagus nerve stimulation is emerging as a new electroceutical therapy for treating gastric disorders. However, its underlying mechanism(s) and therapeutic effect(s) remain incompletely understood.Vagus nerve stimulation significantly accelerated gastric emptying by promoting the relaxation of the pyloric sphincter.MRI offers high spatial and temporal resolution to non-invasively characterize gastric motility and physiology in preclinical animal models.
Vagus nerve stimulation promotes gastric emptying by increasing pyloric opening measured with magnetic resonance imaging