Effects of transcutaneous electrical stimulation with the device “VEB” ® on the human body
DOI:
https://doi.org/10.12775/JEHS.2022.12.02.033Keywords
transcutaneous electrical stimulation, EEG, HRV, GDV, Immunity, MetabolismAbstract
Background. In 2015, a generator for electrotherapy and stimulation oh human nerve centers was created, called “VEB-1”®. Preliminary observation of volunteers revealed a modulating effect of a four-day course of electrical stimulation on the parameters of electroencephalogram, metabolism, as well as gas-discharge visualization (GDV). In this message, we present the results of the approbation of the device on an expanded contingent of volunteers with the use of additional research methods and a new modification of the device. Material and research methods. The object of observation were employees of the sanatorium “Moldova”, patients with chronic cholecystitis: 19 women 30-62 y and 19 men 25-63 y. In the morning registered HRV (“CardioLab+HRV”, “KhAI-Medica”, Kharkiv, UA), EEG (“NeuroCom Standard”, “KhAI-Medica”, Kharkiv, UA), kirlianogram by the method of GDV (“GDV Chamber”, “Biotechprogress”, SPb, RF), electroconductivity of skin in three pairs of points of acupuncture (“Medissa”), electrokinetic index of buccal epithelium ("Biotest", Kharkiv State University), as well as some endocrine, immune and metabolic parameters. After the initial testing, an transcutaneous electrical stimulation session was performed with a “VEB-1”® or a “VEB-2” devices. The next morning after completing the four-day course, retesting was performed. Results. Electrical stimulation causes a sympathotonic shift in the sympatho-vagal balance and an increase in PSD of delta-rhythm generating neurons combined with a decrease in PSD of beta- and theta-rhythm generating neurons. This is accompanied by increase in phagocytosis and favorable changes in immune, biochemical and biophysical parameters as well as increase in testosterone level in men only. The integral effects on the constellation of registered body parameters of both device modifications do not differ significantly. Conclusion. The "VEB" device exerts an adaptogenic effect on the body through transcutaneous electrical stimulation of neurons.
References
Babeluk VE. Patent of Ukraine for utility model 105875 Portable device for electrotherapy and stimulation, 2016.
Babelyuk NV, Babelyuk VY, Kikhtan VV, Popovych IL, Burkovs’ka MM, Dobrovolsky YG, Korsuns’kyi IH, Kindzer BM, Zukow W. The influence of the course of electrostimulation by the device "VEB-1" on metabolic parameters at practically healthy males. Experimental and Clinical Physiology and Biochemistry. 2018; 4(84): 11-17.
Babelyuk NV, Babelyuk VYe, Dubkowa GI, Kikhtan VV, Musiyenko VY, Hubyts’kyi VY, Dobrovolsky YG, Korsunskyi IH, Kovbasnyuk MM, Korolyshyn TA, Popovych IL. Influence of the course of electrostimulation by the device "ES-01.9 WEB" on some functional systems of the organism of practically healthy men [in Ukrainian]. In: Proceedings VIII Scientific Conference "Issues of pathology in conditions of extreme factors action on the body" (Ternopil’, 1-2 October 2015). Ternopil’. 2015: 5-6.
Babelyuk NV, Babelyuk VYe, Dubkowa GI, Kikhtan VV, Musiyenko VY, Hubyts’kyi VY, Dobrovolsky YG, Korsuns’kyi IH, Kovbasnyuk MM, Korolyshyn TA, Popovych IL. Modulation of functional systems of practically healthy men by the course of electrostimulation [in Ukrainian]. In: IX International symposium “Actual problems of biophysical medicine” (Kyiv, 12-15 May 2016). Кyiv: OO Bohomolets’ Institute of Physiology; 2016: 10-11.
Babelyuk NV, Babelyuk VYe, Dubkowa GI, Korolyshyn TA, Kikhtan VV, Dobrovolsky YG, Korsuns’kyi IH, Kovbasnyuk MM. Electrical stimulation with the device "ES-01.9 WEB" activates some functional systems of the body of practically healthy men [in Ukrainian]. In: Valeology: current status, trends and persrectives of development. Abstracts. XIV Intern. scient. and practical. conf. (Kharkiv-Drohobych, 14-16 April 2016). Kharkiv: VN Karazin KhNU. 2016: 198-200.
Babelyuk NV. Electrostimulation with the devices "VEB-1" and "VEB-2" causes almost identical changes in the parameters of gas-discharge visualization. Experimental and Clinical Physiology and Biochemistry. 2020; 90(2): 5-13.
Babelyuk V, Dobrovolsky Yu, Korsunsky I, Kuzenko V, Popovych I, Zukow W. The algorithm of the electric stimulator VEB-1 software operation. Journal of Education, Health and Sport. 2020; 10(5): 403-409.
Babelyuk VE, Gozhenko AI, Dubkova GI, Babelyuk NV, Zukow W, Kovbasnyuk MM, Popovych IL. Causal relationships between the parameters of gas discharge visualization and principal neuroendocrine factors of adaptation. Journal of Physical Education and Sport. 2017; 17(2): 624-637.
Babelyuk VY, Dobrovolsky YuG, Popovych IL, Korsunskiy IG. Generator for electrotherapy and stimulation oh human nerve centers [in Russian]. Tekhnologiya i Konstruirovaniye v Elektronnoy Apparature. 2017; 1-2: 23-27.
Babelyuk VY, Gozhenko AI, Dubkova GI, Babelyuk NV, Zukow W, Kindzer BM, Kovbasnyuk MM, Popovych IL. Causal relationships between the parameters of gas discharge visualization and phagocytosis. Journal of Education, Health and Sport. 2021; 11(6): 268-276.
Babelyuk VY, Tserkovniuk RG, Babelyuk NV, Źukow X, Ruzhylo SV, Dubkova GI, Korolyshyn TA, Hubyts’kyi VY, Kikhtan VV, Gozhenko AI, Popovych IL. The parameters of gas discharge visualization (biophotonics) correlated with parameters of acupuncture points, EEG, HRV and hormones. Journal of Education, Health and Sport. 2021; 11(12): 359-373.
Babelyuk VY, Tserkovniuk RG, Dubkova GI, Kruhliy YS, Korolyshyn TA, Babelyuk NV, Zukow W, Ruzhylo SV, Fihura OA, Gozhenko AI, Popovych IL. Relationships between the neuro-endocrine parameters and virtual chakras energy and asymmetry. Journal of Education, Health and Sport. 2022; 12(1): 235-249.
Babelyuk VY, Tserkovnyuk RG, Ruzhylo SV, Dubkova GI, Babelyuk NV, Zukow W, Popovych IL. Causal relationships between the parameters of gas discharge visualization and leukocytogram. Journal of Education, Health and Sport. 2021; 11(7): 258-269.
Babelyuk VYe, Babelyuk NV, Popovych IL, Dobrovolsky YuG, Korsuns’kyi IH, Korolyshyn TA, Kindzer BM, Zukow W. Influence of the course of electrostimulation by the device "VEB-1" on parameters of electroencephalogram at practically healthy males. Journal of Education, Health and Sport. 2018; 8(4): 195-206.
Babelyuk VYe, Dubkova GI, Korolyshyn TA, Zukow W, Popovych IL. The correlationships between parameters of gas discharge visualization and principal neuroendocrine factors of adaptation. In: Pathophysiology and Pharmacy: ways of integration. Abstracts VII National Congress of Pathophysiologists Ukraine with international participation (5-7 October 2016). Kharkiv. NPhU; 2016: 8-8.
Babelyuk VYe, Gozhenko AI, Dubkova GI, Zukow W, Hubyts’kyi VY, Ruzhylo SV, Fedyayeva SI, Kovalchuk HY, Popovych IL. Causal relationships between the parameters of gas discharge visualization and immunity. Pedagogy and Psychology of Sport. 2021; 7(1): 115-134.
Babelyuk VYe, Popadynets’ OO, Dubkova GI, Zukow W, Muszkieta R, Gozhenko OA, Popovych IL. Entropy of gas-discharge image correlates with the entropies of EEG, immunocytogram and leukocytogram but not HRV. Pedagogy and Psychology of Sport. 2020; 6(2): 30-39.
Babelyuk VYe, Popadynets’ OO, Dubkova GI, Zukow W, Muszkieta R, Gozhenko OA, Popovych IL. Entropy of gas-discharge image correlates with the entropies of EEG, immunocytogram and leukocytogram but not HRV. Pedagogy and Psychology of Sport. 2020; 6(2): 30-39.
Babelyuk VYe. The parameters of gas discharge visualization (kirlianogram) appropriately associated with some psychophysiological and endocrine parameters of healthy men. Medical Hydrology and Rehabilitation. 2013; 11(1): 21-30.
Baevskiy RM, Ivanov GG. Heart Rate Variability: theoretical aspects and possibilities of clinical application [in Russian]. Ultrazvukovaya i funktsionalnaya diagnostika. 2001; 3: 106-127.
Berntson GG, Bigger JT jr, Eckberg DL, Grossman P, Kaufman PG, Malik M, Nagaraja HN, Porges SW, Saul JP, Stone PH, Van der Molen MW. Heart Rate Variability: Origines, methods, and interpretive caveats. Psychophysiology. 1997; 34: 623-648.
Douglas SD, Quie PG. Investigation of Phagocytes in Disease. Churchil. 1981. 110 p.
Heart Rate Variability. Standards of Measurement, Physiological Interpretation, and Clinical Use. Task Force of ESC and NASPE. Circulation. 1996; 93(5): 1043-1065.
Hubyts’kyi VY, Humenna OP, Barylyak LG, Bolyukh VV, Popovych IL, Maluchkova RV. Electro-skin resistance of points of acupuncture correlates with some parameters of neuroendocrine-immune complex [in Ukrainian]. Medical Hydrology and Rehabilitation. 2013; 11(2): 4-11.
Kindzer BM, Babelyuk VY, Babelyuk NV, Popovych IL, Dubkova GI, Dobrovolsky YG, Korsuns’kyi IH, Korolyshyn TA, Litosh S, Kindzer H, Zukow W. The device for electrostimulation "VEB-1" modulates parameters of electroencephalogram and gas discharge visualization. Science and society. Proc. of the 11th internat. confer. Acent Grafics Communications and Publishing. Hamilton, Canada. 2019: 159-171.
Klecka WR. Discriminant Analysis [trans. from English in Russian] (Seventh Printing, 1986). In: Factor, Discriminant and Cluster Analysis. Moskwa: Finansy i Statistika. 1989: 78-138.
Korneva EA, Shkhinek EK, Frolov BA. Neuroendocrine mechanisms of regulation of immune system functions. In: Immunophysiology / Ed Korneva EA. SPb. Nauka; 1993: 5-15.
Korneva EA. Pathways of neuro-immune communication: past and present time, clinical application [in Russian]. Meditsinskaya Immunologiya. 2020. 22(3):405-418.
Korotkov KG. Basics GDV Bioelectrography [in Russian]. SPb. SPbGITMO(TU); 2001: 360.
Korotkov KG. Energy Fields Electrophotonic Analysis in Humans and Nature. Second updated edition. Translated from Russian by the author. Edoted by Berney Williams and Lutz Rabe. 2014: 233.
Korotkov KG. Principles of Analysis in GDV Bioelectrography [in Russian]. SPb. Renome; 2007: 286.
Kyrylenko IG, Fajda OI, Drach OV, Popel SL, Popel RL, Zukow W. Relationships between electrokinetic index of buccal epithelium and some functional and metabolic parameters at men with chronic pyelonephrite. Journal of Education, Health and Sport. 2016; 6(1): 302-314.
Kyrylenko IG, Flyunt I-SS, Fil’ VM, Zukow W, Popovych IL. Changes in electrokinetic index of buccal epithelium correlated with changes in some parameters of immunity and fecal microbiocenosis. Journal of Education, Health and Sport. 2018; 8(10): 168-170.
Kyrylenko IG. Changes in electrokinetic index of buccal epithelium correlated with changes in some parameters of EEG, HRV, hemodynamics and metabolism. Experimental and Clinical Physiology and Biochemistry. 2018; 2(82): 5-14.
Lapovets’ LYe, Lutsyk BD. Handbook of Laboratory Immunology [in Ukrainian]. L’viv. 2004. 173.
Nance DM, Sanders VM. Autonomic innervation and regulation of immune system (1987-2007). Brain Behav Immun. 2007; 21(6): 736-745.
Newberg AB, Alavi A, Baime M, Pourdehnad M, Santanna J, d’Aquili E. The measurement of regional cerebral blood flow during the complex cognitive task of meditation: a preliminary SPECT study. Psychiatry Research: Neuroimaging Section. 2001; 106: 113-122.
Panossian AG, Efferth T, Shikov AN, Pozharitskaya ON, Kuchta K, Mukherjee PK, Banerjee S, Heinrich M, Wu W, Guo DA, Wagner H. Evolution of the adaptogenic concept from traditional use to medical systems: Pharmacology of stress- and aging-related diseases. Med Res Rev. 2021; 41(1): 630-703.
Popovych IL, Babelyuk VYe, Dubkova GI. Relations between the parameters bioelectrography (kirlianography) and heart rate variability and blood pressure [in Ukrainian]. Medical Hydrology and Rehabilitation. 2010; 8(1): 4-16.
Popovych IL, Gozhenko AI, Zukow W, Polovynko IS. Variety of Immune Responses to Chronic Stress and their Neuro-Endocrine Accompaniment. Scholars' Press. Riga; 2020: 172.
Popovych IL, Kozyavkina OV, Kozyavkina NV, Korolyshyn TA, Lukovych YuS, Barylyak LG. Correlation between Indices of the Heart Rate Variability and Parameters of Ongoing EEG in Patients Suffering from Chronic Renal Pathology. Neurophysiology. 2014; 46(2): 139-148.
Popovych IL, Kul’chyns’kyi AB, Gozhenko AI, Zukow W, Kovbasnyuk MM, Korolyshyn TA. Interrelations between changes in parameters of HRV, EEG and phagocytosis at patients with chronic pyelonephritis and cholecystitis. Journal of Education, Health and Sport. 2018; 8(2): 135-156.
Popovych IL, Kul’chyns’kyi AB, Korolyshyn TA, Zukow W. Interrelations between changes in parameters of HRV, EEG and cellular immunity at patients with chronic pyelonephritis and cholecystitis. Journal of Education, Health and Sport. 2017; 7(10): 11-23.
Popovych IL, Lukovych YuS, Korolyshyn TA, Barylyak LG, Kovalska LB, Zukow W. Relationship between the parameters heart rate variability and background EEG activity in healthy men. Journal of Health Sciences. 2013; 3(4): 217-240.
Sternberg EM. Neural regulation of innate immunity: a coordinated nonspecific response to pathogens. Nat Rev Immunol. 2006; 6(4): 318-328.
Thayer JF, Sternberg EM. Neural aspects of immunomodulation: Focus on the vagus nerve. Brain Behav Immun. 2010; 24(8): 1223-1228.
Tracey KJ. Physiology and immunology of the cholinergic antiinflammatory pathway. J Clin Invest. 2007; 117(2): 289-296.
Tracey KJ. Understanding immunity requires more than immunology. Nature Immunology. 2010; 11(7): 561-564.
Vanneste S, De Ridder D. Brain Areas Controlling Heart Rate Variability in Tinnitus and Tinnitus-Related Distress. PloS ONE. 2013; 8(3): e59728.
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Copyright (c) 2022 Valeriy Babelyuk, Nazariy Babelyuk, Igor Popovych, Anatoliy Gozhenko, Iryna Kyrylenko, Tetyana Korolyshyn, Galyna Dubkova, Marta Kovbasnyuk, Victor Hubyts’kyi, Volodymyr Kikhtan, Vira Musiyenko, Yuriy Dobrovolsky, Igor Korsunskyi, Walery Zukow
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