Abstract

BackgroundImbalanced cardiac autonomic control and cardiac receptors redistribution contribute to the arrhythmogenic substrate under the myocardial infarction (MI) condition. Stimulating the auricular branch of vagus nerve (AB-VNS) has been proven to reduce post-infarction ventricular arrhythmia (VAs), but its potential mechanisms were largely unknown.This study aimed to investigate whether long-term intermittent low-intensity AB-VNS could produce a protective effect on modulating autonomic activities and abnormal redistribution of autonomic nerve efferent receptors in a MI canine model.Material/MethodsTwelve healthy beagle dogs underwent ligation of the left anterior descending coronary artery to establish a MI model and were randomized into 2 groups: an AB-VNS group, (AB-VNS for 4 weeks) and a control group (sham stimulation for 4 weeks). Dynamic electrocardiogram recording, neural recording, catecholamine concentration, and histological studies were conducted subsequently.ResultsCompared to the control group, the AB-VNS group had significantly suppressed post-infarction VAs, reduced low frequency (LF) power and increased high frequency (HF) power. In the AB-VNS group, with the progression of reduced cardiac sympathetic activities and augmented cardiac parasympathetic activities, the catecholamine concentration in heart tissue declined in the peripheral infarction area and right ventricle (RV); tyrosine hydroxylase (TH)-positive neurons decreased in the inferior cardiac sympathetic nerve, and choline acetyltransferase (ChAT)-positive neurons increased in the cervical vagus nerve. Expression of TrkA and P75NGFR were reduced in the peripheral MI (peri-MI) and non-MI area with AB-VNS. The mRNA expression of adrenergic and nicotinic receptors (β1-AR, β3-AR, and CHRNA7) significantly declined in the peri-MI and non-MI area of the AB-VNS group.ConclusionsChronic intermittent low-intensity AB-VNS effectively suppressed post-infarction VAs by potentially rebalancing extracardiac intrathoracic autonomic activities, reducing excessive cardiac sympathetic denervation, and attenuating the heterogeneities of cardiac efferent nerve receptors distribution.

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