Endothelial dysfunction is considered as a universal non-specific link in the pathogenesis of many diseases, primarily the cardiovascular system. This review is devoted to the discussion of the main functions of the endothelium and mechanisms for their implementation. One of the most striking features of endothelial cells is their morphological heterogeneity, which allows us to identify several typical forms of endothelial dysfunction (vasomotor, hemostatic, adhesion and angiogenous). Also, the review presents the most promising predictors of cardiovascular diseases and their complications among endothelial damage markers.
We aimed to evaluate hemodynamic parameters in the cutaneous microcirculation during recovery to graded dynamic exercise performed on a cycloergometer by using two distinctive methods: high-frequency ultrasound Doppler flowmetry (UDF) and laser Doppler fluxmetry (LDF). Regarding UDF, the medium linear blood flow velocity (Vam) was estimated, expressed in absolute units (cm/s) whereas blood flow assessed by LDF was registered in arbitrary perfusion units (PU). We compared the corresponding perfusion values obtained by UDF and LDF, respectively, every 20 s during recovery period to physical exercise. Three types of microvascular blood flow dynamics were recorded: blood flow with an occasional paroxysm, a pulsatile blood flow pattern, and a shunting-type blood flow pattern. In the first type, the reaction time of registration and the direction of changes of UDF and LDF values coincided in 77.7%, exhibiting high correlation (r = 0.77; p≤0.001). In the second type, the direction of changes of UDF and LDF showed 85.0% similarity and a moderate correlation (r = 0.66; p = 0.0015), whereas in the third type, there was also a moderate correlation (r = 0.53, p = 0.0024). Our pilot experiments have shown that UDF could be regarded as a comparable substitutional method to LDF for studying skin microcirculation.
Impaired microcirculation due to endothelial dysfunction in COVID-19 is considered to be the most important link in the pathogenesis of this disease. However, due to the complexity of its instrumental assessment in critically ill patients, the data available in the literature on specific manifestations of endothelial dysfunction are very contradictory.The objective: to determine the most characteristic capillaroscopic signs of microvascular disorders and to assess the state of microcirculation regulation in patients with severe COVID-19.Subjects and Methods. When admitted to the intensive care unit, 60 patients with COVID-19 and 12 patients with chronic cardiovascular pathology without COVID-19 (Comparison Group) were examined. All patients underwent microscopy of the microcirculatory bed of finger nail bed; the following parameters were assessed: diameters of the venous, arterial and transitional parts of capillaries, height of capillary loops, density of capillaries per 1 mm of the length of the perivascular zone, the average linear velocity of capillary blood flow (LVCBF), and thickness of the perivascular zone. The presence of avascular zones, the number of capillaries in the visualized field with circulating aggregates in the lumen, and the shape of capillaries were taken into account. In addition, an occlusion test using laser Doppler flowmetry was performed in 32 patients with COVID-19. The maximum post-occlusive increase in blood flow at the moment of cuff deflation was assessed, as well as changes in the mean value of post-occlusive blood flow relative to the baseline within 3 minutes after cuff deflation.Results. In 53 (88.3%) patients with COVID-19, abnormalities corresponding to chronic microcirculatory changes in the form of predominance of pathological capillary forms were detected. Microaggregates in the lumen of capillaries and decreased linear velocity of blood flow were revealed in 100% of cases. When comparing groups of patients with different outcomes, statistically significant differences were revealed between the LVCBF parameters (in the survivors - 354.35 ± 44.78 pm/sec, in the deceased - 278.4 ± 26.59 pm/sec), as well as between the values of the perivascular zones thickness (95.35 ± 15.96 microns versus 159.93 ± 19.90 microns). The results of the post-occlusion test revealed a significant difference between the groups in terms of the maximum post-occlusion gain (39.42 ± 3.85 BPU in the group with a favorable outcome, 27.69 ± 3.19 BPU in the group with an unfavorable outcome, 47.23 ± 1.78 BPU in the control group). In both groups, there was no increase in this parameter relative to the initial blood flow. At the same time, in the control group, the average index of post-occlusive blood flow was higher than the initial level.Conclusions. Acute microcirculation disorders with decreased linear velocity of capillary blood flow, circulation of aggregates, increased thickness of the perivascular zone were detected in all patients with severe COVID-19 but especially in those with unfavorable outcomes. Vascular tone regulation disorders were manifested by the absence of reactive hyperemia in response to acute ischemia, as well as a decrease in maximal flow-induced increase. These changes fit into the concept of endothelial dysfunction. Signs of chronic microcirculation disorders in most patients increase the risk of severe COVID-19.
The review describes pathogenesis of the disease caused by the new SARS-CoV-2 virus. It infects the human cells by linking angiotensin-converting enzyme-2 (ACE2) and a number of other receptors. The virus imbalances the renin-angiotensin system, results to vasoconstriction and acts like pro-inflammatory agent. ACE2 is exposed on the alveolar epithelium cell surface. It is the main gates for virus entering and damaging of the respiratory system resulted in an acute respiratory distress syndrome. The injuring of the pulmonary vessel endothelium is the most important part of the COVID-19 pathogenesis. ACE2 of the endothelial and smooth muscle cell surface upon the SARS-CoV-2 infection facilitates the injury of cardiovascular system. The development of endotheliitis induced by «cytokine storm» leads to the main signs of the disease and the multiple disorder of the microcirculation. The investigation of that condition has a prognostic value and determines the treatment especially in critically ill patients. Systemic endothelial dysfunction upon the COVID-19 largely triggers the hemostasis disorders. High activity of platelets adhesion and aggregation, blood coagulation in died COVID-19 patients, disorder of fibrinolysis system functional activity could be induced by the endothelium activation. The unchanged anticoagulation blood activity in the COVID-19 patients distinguishes them from the patients with disseminated intravascular coagulation. Monitoring of the hemostasis system in COVID-19 is important for the disease severity assess and its prognosis, for justin-time correction of detected deviations.
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