Autonomic and endocrine accompaniments of quantitative-qualitative blood pressure clusters in patients of Truskavets’ spa
DOI:
https://doi.org/10.12775/JEHS.2020.10.07.048Keywords
blood pressure, HRV, adaptation hormones, discriminant analysis, Truskavets’ spa.Abstract
Background. Earlier we showed that profile patients of Truskavets’ spa are characterized by a wide range of blood pressure (BP) - from low norm to arterial hypertension III that correspond to the hemodynamics parameters. The purpose of this study is to clarify the autonomic and endocrine accompaniments of quantitative-qualitative BP clusters in the same contingent. Materials and methods. Under an observations were 44 patients with chronic pyelonephritis and cholecystitis in the phase of remission. Testing was performed twice - on admission and after 7-10 days of standard balneotherapy. The main object of the study was BP (tonometer “Omron M4-I”, Netherlands). The parameters of HRV ("CardioLab+HRV", Ukraine), plasma levels of Cortisol, Aldosterone, Testosterone, Triiodothyronine and Calcitonin (ELISA) as well as Ca-P marker of parathyroid hormone were determined. Results. In order to identify among the registered parameters, those for which the BP clusters differ from each other, a discriminant analysis was performed. The program forward stepwise included in the discriminant model 29 parameters. The most informative among them are HRV-markers of sympathetic tone and sympathetic-vagal balance as well as testosterone and cortisol, whose levels are maximal in patients with hypertension II, while minimal in patients with low norm BP, on the one hand, and markers of vagal tone and Kerdoe vegetative index, the levels of which are polar, on the other hand. The accuracy of patient classification is 98,9%. Conclusion. Autonomic and endocrine accompaniments of quantitative-qualitative blood pressure clusters corresponding to the existing ideas about the regulation of blood pressure.
References
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.
Biletskyi SV, Gozhenko AI (Editors). Hypoxic-Hyperkapnic Exercises in Cardiology [in Russian]. Chernivtsi. Medunivercity; 2007: 148 p. Билецкий СВ, Гоженко АИ (ред). Гипоксически-гиперкапническая тренировка в кардиологии. Чернивци. Медуниверситет; 2007: 148 p.
Celis H, Den Hond E, Staessen JA. Self-measurement of blood pressure at home in the management of hypertension. Clin Med Res. 2005; 3(1): 19-26.
Exploring the Role of the Heart in Human Performance. Volume 2. Science of the Heart. An overview of research conducted by HeartMath Institute. Technical Report. 2016: 119 p.
Fajda OI, Hrinchenko BV, Snihur OV, Barylyak LG, Zukow W. What Kerdoe’s Vegetative Index really reflects? Journal of Education, Health and Sport. 2015; 5(12): 279-288.
Fajda OI, Drach OV, Barylyak LG, Zukow W. Relationships between Ca/K plasma ratio and parameters of Heart Rate Variability at patients with diathesis urica. Journal of Education, Health and Sport. 2016; 6(1): 295-301.
Gordan R, Gwathmey JK, Xie L-H. Autonomic and endocrine control of cardiovascular function. WJC. 2015; 7(4): 204-214.
Gozhenko AI, Zukow W, Polovynko IS, Zajats LM, Yanchij RI, Portnichenko VI, Popovych IL. Individual Immune Responses to Chronic Stress and their Neuro-Endocrine Accompaniment. RSW. UMK. Radom. Torun; 2019: 200 p.
Heart Rate Variability. Standards of Measurement, Physiological Interpretation, and Clinical Use. Task Force of ESC and NASPE. Circulation. 1996; 93(5): 1043-1065.
Klecka WR. Discriminant Analysis [trans. from English in Russian] (Seventh Printing, 1986). In: Factor, Discriminant and Cluster Analysis. Moskva. Finansy i Statistika; 1989: 78-138.
Kozyavkina NV, Kozyavkina OV, Vovchyna YV, Popovych IL. Neurogenic mechanism of the influence of balneotherapy on arterial pressure. In: Proceedings of the XX Congress of the Ukrainian Physiological Society named after P.G. Kostyuk. Fiziol Zhurn. 2019; 65(3). Suppl: 54-54.
Kozyavkina NV, Kozyavkina OV, Vovchyna YV. Balneotherapy influences on arterial pressure by neurogenic mechanism. In: Rehabilitation Medicine and Health-Resort Institutions Development. Proceedings of the 19th International Applied Research Conference (Kyїv, 11-12 December 2019). Edited by O. Gozhenko and W. Zukow. Toruń, Kyiv. 2019: 41-42.
Kozyavkina NV, Voronych-Semchenko NM, Vovchyna YV, Zukow W, Popovych IL. Quantitative and qualitative blood pressure clusters in patients of Truskavets’ spa and their hemodynamic accompaniment. Journal of Education, Health and Sport. 2020; 10(6): 445-454.
Lin HJ, Wang TD, Yu-Chih Chen M, et al. 2020 Consensus Statement of the Taiwan Hypertension Society and the Taiwan Society of Cardiology on Home Blood Pressure Monitoring for the Management of Arterial Hypertension. Acta Cardiol Sin. 2020; 36(6): 537-561.
Lukovych YuS, Ohorodnyk IO, Popel SL, Krayevyi VO. Relationships between blood pressure and heart rate variability parameters and the effect on them of balneotherapy at Truskavets’ spa [in Ukrainian]. Medical Hydrology and Rehabilitation. 2012; 10(4): 154-159.
Popadynets’ OO, Gozhenko AI, Badiuk NS, Zukow W, Kovbasnyuk MM, Korolyshyn TA, Popovych IL. Relationships between changes in entropy of the EEG and parameters of the immunity. Pedagogy and Psychology of Sport. 2020; 6(1): 24-40.
Popovych IL, Ruzhylo SV, Ivassivka SV, Aksentiychuk BI (editors). Balneocardioangiology [in Ukrainian]. Kyiv. Computerpress; 2005: 229 p.
Ruzhylo SV, Tserkovnyuk AV, Popopvych IL. Actotropic Effects of Balneotherapeutic Complex of Truskavets spa [in Ukrainian]. Кyiv. Computerpress; 2003: 131 p.
Shakhbazova LV, Mosiy HYe, Tkachuk SP, Shakhbazov OB. Dynamics of the daily profile of blood pressure and heart rate variability in patients with essential hypertension under the influence of treatment at the Truskavets’ spa [in Ukrainian]. Medical Hydrology and Rehabilitation. 2005; 3(4): 44-47.
Shakhbazova LV, Mosiy HYe, Shakhbazov OB, Pavelko OM. Features of the course and correction of arterial hypertension in patients with concomitant autonomic dysfunction in the Truskavets’ spa [in Ukrainian]. Medical Hydrology and Rehabilitation. 2006; 4(3): 65-68.
Vovchyna JV, Lukovych YuS, Matiyishyn GYo, Hryvnak RF, Tymochko OO, Andrusiv OV, Burkovska ММ. Hemodynamic variants of immediate effects of Naftussya bioactive water on blood pressure, their electrolyte accompaniment and the ability to predict [in Ukrainian]. Medical Hydrology and Rehabilitation. 2013; 11(3): 50-59.
Vovchyna JV, Voronych NM, Zukow W, Popovych IL. Relationships between normal or borderline blood pressure and some neural, endocrine, metabolic and biophysic parameters in women and men. Journal of Education, Health and Sport. 2016; 6(2): 163-182.
Vovchyna YuV, Zukow W. The influence of balneotherapy on spa Truskavets’ on arterial pressure and its regulation at children. Journal of Health Sciences. 2014; 4(10): 151-160.
Gozhenko A., Biryukov V., Muszkieta R., Zukow, W. Physiological basis of human longevity: the concept of a cascade of human aging mechanism. Collegium antropologicum, 2018; 42(2): 139-146.
Downloads
Published
How to Cite
Issue
Section
License
The periodical offers access to content in the Open Access system under the Creative Commons Attribution-NonCommercial-ShareAlike 4.0
Stats
Number of views and downloads: 420
Number of citations: 0