Hemorrheological changes in arterial hypertension in persons with and without COVID-19

Q3 Biochemistry, Genetics and Molecular Biology Journal of Cellular Biotechnology Pub Date : 2023-08-04 DOI:10.3233/jcb-230113
A. Muravyov, A. Priezzhev, I. Tikhomirova, A. Lugovtsov, P. V. Mikhailov
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Abstract

BACKGROUND: Vascular resistance, and therefore blood pressure (BP), depends on vascular and rheological factors. Microrheological characteristics of red blood cells (RBCs) can affect blood viscosity (BV) and thus be included in the pathogenesis of increased blood pressure in arterial hypertension (AH). Signaling molecules such as gasotransmitters (NO, CO and H2S) regulate vascular tone and RBC microrheological characteristics and thus affect blood pressure and tissue perfusion. OBJECTIVE: It was evaluated the changes in the macro- and microrheological characteristics of blood and red blood cells (RBCs) under arterial hypertension in persons with and without COVID-19, as well as the protective effect of NO and H2S donors on the RBC microrheological properties. METHODS: Hemorheological profile parameters were recorded in group 1 individuals (n = 18, 9 women and 9 men) without a history of COVID-19; group 2 (n = 16; 11 females and 5 males), hypertensive patients who had COVID-19. As a control, there was a group of healthy individuals (group 3 n = 22). In experiments with red blood cells (RBCs) and their recovered ghosts (filled with an isotonic solution of known viscosity), deformability (RBCD) and aggregation (RBCA) were recorded after incubation of cells with sodium nitroprusside (SNP, 100μM) and sodium hydrosulfide (NaHS, 100μM). RESULTS: In patients with AH in both groups, the main parameters of the hemorheological profile were negatively changed, including a decrease in RBCD and an increase in BV, plasma viscosity (PV) and RBCA. SNP and NaHS significantly increased deformability and reduced their aggregation (p <  0.01). However, in healthy individuals, microrheological responses to GT donors (100μM) were more pronounced than in patients with AH, especially in the AH+COVID-19 group (p <  0.05). CONCLUSION: Both gasotransmitter donors (NO and H2S) have a positive effect on the RBC microrheological characteristics in healthy and sick individuals. However in hypertensive patients, especially those who had COVID-19, microrheological responses to GT donors were significantly lower. Therefore, on the model of red cell microrheological responses, as on a test object, it is possible to determine the decrease in the sensitivity of cells and tissues to the regulatory action of gasotransmitters.
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新冠肺炎感染者和非感染者动脉高血压的血液流变学变化
背景:血管阻力和血压取决于血管和流变因素。红细胞(RBCs)的微流变特性会影响血液粘度(BV),从而参与动脉高压(AH)血压升高的发病机制。信号分子如气体发射器(NO、CO和H2S)调节血管张力和红细胞微流变特性,从而影响血压和组织灌注。目的:评价新冠肺炎患者和非新冠肺炎患者动脉高压状态下血液和红细胞宏观和微观流变学特征的变化,以及NO和H2S供体对红细胞微观流变学特性的保护作用。方法:记录第1组(n = 18、9名女性和9名男性)没有新冠肺炎病史;第2组(n = 16;11名女性和5名男性)、患有新冠肺炎的高血压患者。作为对照,有一组健康个体(第3组n = 22)。在用红细胞(RBCs)及其回收的重影(用已知粘度的等渗溶液填充)进行的实验中,在用硝普钠(SNP,100μM)和硫化钠(NaHS,100μM)孵育细胞后,记录细胞的变形能力(RBCD)和聚集性(RBCA)。结果:两组AH患者的血液流变学主要参数均呈负变化,包括RBCD降低,BV、血浆粘度(PV)和RBCA升高。SNP和NaHS显著增加了变形能力并减少了它们的聚集(p <  然而,在健康个体中,对GT供体(100μM)的微流变反应比AH患者更显著,尤其是在AH+neneneba COVID-19组(p <  结论:NO和H2S对健康和患病个体红细胞微流变学特性均有积极影响。然而,在高血压患者中,尤其是那些患有新冠肺炎的患者,对GT供体的微流变反应显著降低。因此,在红细胞微流变反应模型上,就像在测试对象上一样,可以确定细胞和组织对气体发射器调节作用的敏感性降低。
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来源期刊
Journal of Cellular Biotechnology
Journal of Cellular Biotechnology Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
0.70
自引率
0.00%
发文量
13
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