Features of circulating in the blood desquamated endotheliocytes at the patients with ischemic heart disease and combined with hypertonic disease
DOI:
https://doi.org/10.12775/PPS.2025.24.65637Keywords
desquamated plasma endothelial cells, lipid spectrum, stage II hypertension, ischemic heart diseaseAbstract
Introduction and aim. In the process of implementing the project “Nosologically determined features of the state of desquamated circulating endothelial cells and the lipid spectrum of plasma”, we first conducted a comparative study of 38 patients of both sexes with stage II hypertension (AH II), which in 20 of them was accompanied by chronic alcoholism as well as 21 healthy volunteers. It was found that alcoholism is accompanied by minimal for the sample subnormal levels of markedly and terminally altered circulating endothelial cells (ACEC), LDLP cholesterol, triglycerides, prothrombin, Klimov’s and Dobiásová’s&Frolich’s atherogenity indices, ankle-brachial index of blood pressure (as atherogenity marker) as well as glucose, platelets and leukocytes. Instead, such patients have the maximum for the sample levels of HDLP cholesterol, erythrocytes sedimentation rate, body mass index, urea and creatinine. At the same time, the levels of hemoglobin, erythrocytes and cholesterol total as well as negentropy of endotheliocytogram and lipidogram did not differ from the controls, despite the presence of AH II. Both diastolic and systolic hypertension was less pronounced than in sober patients. The aim of this study was to determine the characteristics of CECs and plasma lipid spectrum in patients with Ischemic Heart Disease (IHD) and comorbidity IHD&AH II.
Material and methods. The object of clinical observation was 20 patients of both sexes with IHD and 44 with comorbidity IHD&AH II as well as 21 healthy volunteers. The battery of tests remained the same.
Results. In patients with comorbidity IHD&AH II the levels of ACEC in total and markedly ACEC in particular as well as systolic and diastolic BP significantly exceeded those in patients with IHD. The difference between the levels of terminally ACEC was less pronounced, but statistically significant. In contrast, patients with IHD had significantly higher levels of initially ACEC, metabolic syndrome index, total cholesterol and, especially, Klimov’s atherogenity index. There were no differences between the groups regarding moderately increased levels of LDLP cholesterol, glucose and prothrombin as well as moderately decreased levels of urea and ankle-brachial index. However, in patients with IHD, a drastic increase in triglyceride levels and Dobiásová’s&Frolich’s atherogenity index and, to a lesser extent, body mass index was found in combination with a decrease in HDLP cholesterol and negentropy of lipidogram, while in patients with comorbidity IHD&AH II, the listed variables did not differ from the controls.
Conclusion. In the observed cohort of patients, ischemic heart disease was accompanied by a significant increase in the level of desquamated circulating endothelial cells with varying degrees of changes, especially markedly altered, and plasma atherogenicity, as well as, to a lesser extent, glycemia and prothrombin. The burden of IHD by hypertension had an ambiguous effect on the listed variables.
References
1.Babelyuk VYe, Dubkowa GI, Korolyshyn TA, Holubinka SM, Dobrovolskyi YG, Zukow W, Popovych IL. Operator of Kyokushin Karate via Kates increases synaptic efficacy in the rat Hippocampus, decreases C3-θ-rhythm SPD and HRV Vagal markers, increases virtual Chakras Energy in the healthy humans as well as luminosity of distilled water in vitro. Preliminary communication. Journal of Physical Education and Sport. 2017;17(1):383-393. https://doi.org/10.7752/jpes.2017.01057
2.Dobiásová M, Frohlich J, Sedová M, Cheung MC, Brown BG. Cholesterol esterification and atherogenic index of plasma correlate with lipoprotein size and findings on coronary angiography. Journal of Lipid Research. 2011;52(3):566-571. https://doi.org/10.1194/jlr.P011668
3.Dobiásová M, Frohlich J. The plasma parameter log(TG/HDL-C) as an atherogenic index: correlation with lipoprotein particle size and esterification rate in apoB-lipoprotein-depleted plasma (FER(HDL)). Clinical Biochemistry. 2001;34(7):583-588. https://doi.org/10.1016/s0009-9120(01)00263-6
4.Friedewald WT, Levy RI, Fredrickson DS. Estimation of the concentration of low-density lipoprotein cholesterol in plasma, without use of the preparative ultracentrifuge. Clinical Chemistry. 1972;18(6):499-502. https://doi.org/10.1093/clinchem/18.6.499
5.Goryachkovskiy AM. Clinical Biochemistry [in Russian]. Odesa: Astroprint; 1998:608. ISBN: 966-549-603-4
6.Gozhenko АІ, Korda MM, Popadynets OO, Popovych IL. Entropy, Harmony, Synchronization and their Neuro-endocrine-immune Correlates [in Ukrainian]. Odesa: Feniks; 2021:232. ISBN: 978-966-438-920-7
7.Gozhenko A, Pavlega H, Badiuk N, Zukow W. Circulating in the blood desquamated endotheliocytes at the cardiovascular diseases. Preliminary communication. Quality in Sport. 2024;19:51571. https://doi.org/10.12775/QS.2024.19.51571
8.Gozhenko A, Pavlega H, Badiuk N, Zukow W. Features of circulating in the blood desquamated endotheliocytes at the patients with hypertonic disease accompanied by alcoholism. Journal of Education, Health and Sport. 2025;83:63633. https://doi.org/10.12775/JEHS.2025.83.63633
9.Hiller G. Test for the quantitative determination of HDL cholesterol in EDTA plasma with Reflotron®. Klinische Chemie. 1987;33:895-898.
10.Hladovec J, Prerovsky I, Stanek V, Fabian J. Circulating Endothelial Cells in Acute Myocardial Infarction and Angina Pectoris. Klinische Wochenschrift. 1978;56(20):1033-1036. https://doi.org/10.1007/BF01477195
11.Klecka WR. Discriminant Analysis [trans. from English in Russian] (Seventh Printing, 1986). In: Factor, Discriminant and Cluster Analysis. Moscow: Finansy i Statistika; 1989:78-138. ISBN: 5-279-00083-6
12.Klimov AN, Nikulcheva NG. Lipids, Lipoproteides and Atherosclerosis [in Russian]. St. Petersburg: Piter Press; 1995:304. ISBN: 5-88782-041-8
13.Kuznetsova HS, Gozhenko AI, Kuznetsova KS, Shukhtin VV, Kuznetsova ЕN, Kuznetsov SH. Endothelium. Physiology and Pathology: monograph. Odesa: Feniks; 2018:284. ISBN: 978-966-438-654-1
14.Popadynets' O, Gozhenko A, Badyuk N, Popovych I, Skaliy A, Hagner-Derengowska M, Napierata M, Muszkieta R, Sokołowski D, Zukow W, Rybałko L. Interpersonal differences caused by adaptogen changes in entropies of EEG, HRV, immunocytogram, and leukocytogram. Journal of Physical Education and Sport. 2020;20(Suppl. 2):982-999. https://doi.org/10.7752/jpes.2020.s2139
15.Popovych IL, Gozhenko AI, Korda MM, Klishch IM, Popovych DV, Zukow W (editors). Mineral Waters, Metabolism, Neuro-Endocrine-Immune Complex. Odesa: Feniks; 2022:252. ISBN: 978-966-438-987-0
16.Shannon CE. A mathematical theory of information. Bell System Technical Journal. 1948;27(3):379-423. https://doi.org/10.1002/j.1538-7305.1948.tb01338.x
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