Aim. To study the rigidity of the vascular wall and microcirculation parameters in patients with uncontrolled (UCAH) and controlled arterial hypertension (CAH).Material and methods. 134 patients with essential hypertension were included, among them 88 (65.7%) patients with UCAH and 46 (34.3%) patients with CAH. Patients in both groups were similar by sex, age, duration of hypertension and some biochemical parameters. Patients had a study of the parameters of stiffness of the vascular wall, microcirculation parameters, as well as an evaluate of the plasma level of asymmetric dimethylarginine (ADMA).Results. Pulse wave velocity (PWV) did not differed between the UCAH and CAH, both in absolute values (1144 [1000-1290] vs 1138 [10281279] cm/sec; p=0.385) and in the frequency of exceeding the normal values (95% vs 92%; p=0.784). Microcirculation index (MI) in CAH was significantly higher than in the UCAH group: 30.55 [27.08-34.4] and 22.82 [18.62-26.05], respectively (p <0.05). ADMA plasma concentration was significantly higher 0.69 [0.62-0.81] μmol/l in UCAH, than in the CAH group 0.62 [0.58-0.70] µmol/l (p <0.05), that shows the presence of endothelial dysfunction. There were detected significant relation between MI and cognitive status.Conclusion. The results of our study indicate the presence of signs of endothelial dysfunction in patients with UCAH with changes in the stiffness of the vascular wall comparable with the CAH group. This may reflect the slower effect of antihypertensive therapy on the remodeling processes of large vessels in comparison with the microvasculature.
The results of numerous studies of recent decades confirm the crucial role of vascular endothelium in regulating vascular homeostasis. A plethora of recent studies have shed light on the clinical significance of endothelial dysfunction in essential hypertension. Asymmetric dimethylarginine (ADMA) is an endogenous nitric oxide synthase inhibitor. At present, it is considered as a generally recognized marker of endothelial dysfunction by most researchers. In vitro experiments showed that ADMA inhibits endothelium-dependent arterial relaxation, increases the level of indicators characterizing the degree of oxidative stress in endothelial cells, enhances the synthesis of the superoxide anion radical by endothelial cells. The molecular mechanisms described above, activated with an increase in the concentration of ADMA, cause various disturbances in the function of the cardiovascular system, which gave grounds to consider the level of ADMA as a criterion and risk factor for the development of cardiovascular diseases. Thus, ADMA plays a key role in the development and progression of CVD associated with a spectrum of diseases and pathological conditions characterized by a disturbance in NO production. Despite clinical and experimental confirmation of the relationship between the increase in ADMA in plasma and the development of cardiovascular events, the unambiguous etiopathogenetic role of ADMA in CVD requires further research. In order to accurately answer the question of whether ADMA is an etiological factor or a biological marker of CVD, additional analysis is needed to study the biochemical, genetic and pharmacological aspects of ADMA metabolism, the results of which are presented in this article.
The presence of arterial hypertension (AH) leads to the development of cognitive dysfunction, in the genesis of which a significant role is assigned to vascular factors. Aim. To study the state of cognitive function and associated vascular factors in patients with uncontrolled AH. Materials and methods. The research involved 88 patients with uncontrolled AH (UAH) — group 1 (median age 60, men — 39%) and 46 patients with controlled AH (CAH) — group 2 (median age 59, men — 41%). Cognitive function was assessed using the Montreal Cognitive Assessment (MoCA). There were studied vascular factors: thickness of the intima-media complex (IMC), pulse wave velocity (PWV), microcirculation flow index (MFI) and asymmetric dimethylarginine (ADMA) concentrations. For the statistical analysis the following criteria were used: Student t-test, Mann—Whitney test. Multifactorial linear regression analysis was performed in groups. Results. In Group 1, there was a lower cognitive function index by MoCA — 24 [22; 26] points against 26 [25; 27] points in Group 2 (p = 0.002). IMC thickness was higher in Group 1 than in Group 2 (1.1 [0.90; 1.20] mm vs 1.0 [0.80; 1.10] mm, p = 0.042), concentration of ADMA was higher in Group 1 (0.73 ± 0.21 µmol/l vs 0.65 ± 0.1 µmol/l, p = 0.02), MFI was higher in Group 2 (30.6 [27.1; 34.4] perf. units vs. 22.8 [18.6; 26.1] perf. units, р < 0.001). No differences between the groups were found in PWV. In regression analysis, the following factors had a statistically significant effect on MoCA scores: in Group 1 — age, IMC thickness, ADMA and MFI; in Group 2 — age and glomerular filtrate rate. Conclusion. Patients with uncontrolled AH have more pronounced cognitive dysfunction than those with controlled AH, which is associated with increased IMC thickness, impaired microcirculation and increased ADMA concentration.
Aim. To conduct a comparative analysis of the level of asymmetric dimethylarginine (ADMA) in two groups of patients with a diagnosis of essential arterial hypertension (AH). Group I - patients with uncontrolled hypertension (UCAH) and group II - patients with controlled course of hypertension (CAH). Materials and methods. The study included 109 patients: group I - 73 patients with UCAH, group II - 36 patients with CAH. Groups were comparable. Clinical, laboratory and instrumental examination was performed, including determination of ADMA concentration in blood plasma. Results. The concentration of ADMA in patients with UCAH was significantly higher than in the group with CAH. In patients with UCAH, a pronounced positive correlation was found between the concentration of ADMA and creatinine level (r=0.615, p
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