苯甲酰牛磺酸二钾盐对违反脑循环的脑微血管凝血、止血及血管活性的影响

Q4 Biochemistry, Genetics and Molecular Biology Sibirskii nauchnyi meditsinskii zhurnal Pub Date : 2022-10-27 DOI:10.18699/ssmj20220507
V. E. Pustynnikov, S. S. Tsaruk, E. A. Fomichev, E. A. Miloserdova, D. Kurkin, D. A. Bakulin, T. M. Andriashvili, A. Sokolova, N. V. Atapina, A. K. Brel, Yu. N. Budaeva, I. Tyurenkov
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引用次数: 0

摘要

脑循环障碍(CCD)是人群中最常见的死亡和残疾原因之一。改善脑组织微循环是CCD治疗和预防的主要方向之一,在实验CCD条件下研究前列环素合成活性和评估NO介导的大鼠内皮功能障碍中动脉血管的止血和功能状态。材料和方法。实验在50只Wistar大鼠上进行,通过阻断颈总动脉来模拟CCD。术后7天内,动物按组接受治疗:生理盐水、C-60(N-(3-羟基苯甲酰基)牛磺酸二钾盐)和乙酰水杨酸。治疗后,通过pial血管对吲哚美辛的反应来评估前列环素合成系统的活性,通过乙酰胆碱和L-NAME测试来评估内皮功能障碍。还研究了血浆和血小板止血的参数,并使用行为测试(开放视野、粘附测试、旋转棒、Morris水迷宫、被动回避任务)来评估动物的神经功能缺陷。结果。在研究试验化合物给药一个疗程后脑缺血动物的神经功能缺损水平时,注意到,与对照组相比,治疗组的运动和探索活动显著增加,感觉运动功能和运动协调性改善(p<0.05),水杨酸衍生物治疗组血小板及血浆止血参数正常化,血管内皮功能状态改善。根据评估脑血管内皮的前列环素合成活性的结果,可以得出试验化合物抑制环氧合酶的水平与乙酰水杨酸的作用相当。结论。水杨酸的一种新衍生物,N-(3-羟基苯甲酰基)牛磺酸二钾盐,在实验中降低了脑缺血大鼠神经功能缺损的严重程度,改善了止血参数和脑血管的功能状态。
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Effect of benzoyl taurine dipotassium salt on coagulation, hemostasis and vascular activity in the microvasculature of the brain in violation of cerebral circulation
Cerebral circulation disorders (CCD) are one of the most common causes of mortality and disability in the population. Improving the microcirculation of brain tissue is one of the main directions in the treatment and prevention of CCD.Aim of the study was to evaluate the effect of a new derivative of hydroxybenzoic (salicylic) acid on neurological deficit, hemostasis and functional state of arterial pial vessels in the study of prostacyclin-synthetic activity and evaluation of NOmediated endothelial dysfunction in rats under experimental CCD conditions. Material and methods. The experiment was carried out on 50 Wistar rats, which were simulated for CCD by occlusion of common carotid arteries. Within 7 days after the operation, the animals received treatment according to the group: saline, C-60 (N-(3-hydroxybenzoyl)taurine dipotassium salt) and acetylsalicylic acid. After treatment, the activity of the prostacyclin-synthetic system was assessed by the reaction of pial vessels to indomethacin, endothelial dysfunction was estimated by tests with acetylcholine and L-NAME. The parameters of plasma and platelet hemostasis were also studied, and behavioral tests (open field, adhesion test, rotarod, Morris water maze, passive avoidance task) were used to assess neurological deficits in animals. Results. When studying the level of neurological deficit in animals with brain ischemia after a course of administration of the test compound, it was noted that in the treated groups, compared with the control group, there was a significant increase in motor and exploratory activity, improvement in sensory-motor function and coordination of movements (p < 0.05). Also, in the group treated with the salicylic acid derivative, normalization of the parameters of platelet and plasma hemostasis, improvement of the functional state of the vascular endothelium was observed. According to the results of assessing the prostacyclin-synthesizing activity of the endothelium of the cerebral vessels, it follows that the test compound inhibits cyclooxygenase at a level comparable with effect of acetylsalicylic acid. Conclusions. A new derivative of salicylic acid, the dipotassium salt of N-(3-hydroxybenzoyl)taurine, reduces the severity of neurological deficit, improves hemostasis parameters and the functional state of cerebral vessels in rats with brain ischemia in the experiment.
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54
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