References
1. Strel’nikov A.G., Losik D.V., Sergeevichev D.S., Zykov I.S., Abashkin S.A., Romanov A.B., et al. Neurotoxic denervation of the left atrial autonomic nervous system for the treatment and prevention of atrial fibrillation: a pilot study. Patologiya krovoobrashcheniya i kardiokhirurgiya [Pathology of Blood Circulation and Cardiac Surgery]. 2015; 19 (3): 94-9. (in Russian)
2. Nechepurenko A.A., Romantsov E.I. Influence of the vagus nerve on the duration of paroxysmal atrial fibrillation and the zone of early depolarization in the sinoatrial region of the heart. In: Graduate School: Research. Materials of the Interuniversity Scientific Congress. Moscow: Infiniti, 2020: 136-43. (in Russian)
3. Mazurov M.E. Control of the unified heart rhythm. Biofizika. 2009; 54 (1): 89-96.
4. Syrovnev VA., Lebedev D.S., Mikhaylov E.N. Vagus nerve stimulation in cardiology. Translyatsionnaya meditsina [Translational Medicine]. 2017; 4 (2). P. 6-16. (in Russian)
5. Yaniv V., Lyashkov A.E., Lakatta E.G. The fractallike complexity of heart rate variability beyond neurotransmitters and autonomic receptors: signaling intrinsic to sinoatrial node pacemaker cells. Cardiovasc Pharm Open Access. 2013; 2: 111. DOI: https://doi.org/10.4172/2329-6607.1000111
6. Badran B.W., Yu A.B., Adair D., Mappin G., DeVries W.H., Jenkins D.D., et al. Laboratory Administration of Transcutaneous Auricular Vagus Nerve Stimulation (taVNS): technique, targeting, and considerations. J Vis Exp. 2019; 143: e58984. DOI: https://doi.org/10.3791/58984
7. Pokrovsky V.M. Formation of heart rhythm in humans and animals. Krasnodar: Kuban’-kniga, 2007: 143 p. (in Russian)
8. Pokrovsky V.M., Polischuk L.V. Cardiorespiratory synchronism in estimation of regulatory and adaptive organism status. J Integr Neurosci. 2016; 15 (1): 19-35.
9. Pokrovsky V.M., Tarasov D.G., Nechepurenko A.A., Korotkov K.G., Abushkevich V.G. A focus of early depolarization in the sinoatrial region of the right atrium in humans before and during anesthesia. Klinicheskaya i eksperimental’naya khirurgiya. Zhurnal imeni akademi-ka B.V. Petrovskogo [Clinical and Experimental Surgery. Petrovsky Journa]. 2018; 6 [4 (22)]: 49-54. (in Russian)
10. Pokrovsky V.M., Somov I.M. Visualization of the process of excitation in the sinoatrial region of the cat’s heart upon irritation of the vagus nerve. Meditsinskiy vestnik Severnogo Kavkaza [Medical Bulletin of North Caucasus]. 2015; 10 (1): 70-2. (in Russian)
11. Pokrovsky V.M., Nechepurenko A.A., Tarasov D.G., Korotkov K.G., Abushkevich V.G. Sinoatrial node pacemaker cell pool Dynamics upon synchronization with vagus nerve rhythm. J Appl Biotechnol Bioeng. 2019; 6 (3): 114-6.
12. Bogus S.K., Galenko-Yaroshevsky P.A., Suz-dalev K.F., Sukoyan G.V., Abushkevich V.G. 2-Phenyl-1-(3-Pyrrollidin-1-1L-Propyl)-1 H-Indole Hydrochloride (SS-68) antiarrhythmic and cardioprotective activity and its molecular mechanisms of action (Part I). Res Results Pharmacol. 2018; 4 (2): 133-50.
13. Abramochkin D.V., Kuz’min V.S., Rozensht-raukh L.V. Ionic channels and currents of cardiac fiber -the foundations of modern electrophysiology of the heart. In: E.I. Chazov (ed.). Guide to Cardiology in Four Volumes. Vol. 1: Physiology and Pathophysiology of the Cardiovascular System. Moscow: Praktika, 2014: 39-83. (in Russian)
14. Zagidullin N.Sh., Zagidullin Sh.Z. Possibilities of the design of biological pacemakers in patients with sinus node lesions (literature review with our own research). Meditsinskiy vestnik Bashkortostana [Medical Bulletin of Bashkortostan]. 2008; 3 (1): 51-6. (in Russian)