Our study supports the hypothesis of genetic predisposition to different variants of extreme behaviour mediated by genetic determinants involved in the functioning of neuromediator systems including those controlling dopamine pathways.
Науки о здоровье Лонгитюдинальный анализ эпидемиологической ситуации по природно-очаговым инфекционным болезням на территориях Сибири, пострадавших от наводнений Онищенко Г.Г.
<p><strong>Background.</strong> There is a continued search for effective and safe drugs with systemic hemostatic effects. Experimental data from previous studies show that low-dose fibrin monomer (FM) can reduce posttraumatic bleeding without causing activation of clotting in the circulating blood.</p><p><strong>Aim.</strong> To study the systemic hemostatic and hemostasiological effects of prophylactic intravenous administration of FM on the background of fibrinolysis activation by streptokinase.</p><p><strong>Methods.</strong> In a placebo-controlled study using male rabbits, fibrinolysis was activated by intravenous administration of streptokinase at a dose of 150,000 IU/kg. One hour before liver injury, FM was administered intravenously at a dose of 0.25 mg/kg. Tranexamic acid (TXA) was administered intravenously at a dose of 15 mg/kg 30 min before injury as a reference drug. After metered-dose injuring, blood loss was estimated as % of the circulating blood volume and by the rate of blood loss (mg/s). The study of blood platelet count, activated partial thromboplastin time (APTT), thrombin time (TT), fibrinogen concentration and the results of rotational blood thromboelastometry were taken into consideration.</p><p><strong>Results.</strong> Administration of FM and TXA before fibrinolysis activation by streptokinase reduced the blood loss volume by 11.0 and 15.4 times, respectively. FM and TXA both reduced the blood loss rate by 3.8 times compared to the placebo group that received the same fibrinolytic. The administration of streptokinase in all cases was accompanied by 23–30% a decrease in the fibrinogen concentration without affecting APTT and TT. The hemostatic effects of FM and TXA were observed in vivo while preserving the density properties of the blood clot (according to the parameters of α angle, MCF and A10 in thromboelastometry) despite the administration of streptokinase, whereas a significant decrease in these parameters was observed in the placebo group.</p><p><strong>Conclusion.</strong> The systemic hemostatic effects of FM at a dose of 0.25 mg/kg with fibrinolysis activation by streptokinase were close to the effects of TXA. Thus, FM administration can be considered a promising hemostatic therapy for the reduction of thrombolysis-associated bleeding.</p><p>Received 18 December 2019. Accepted 22 January 2020.</p><p><strong>Funding:</strong> The study was supported by a grant from the Russian Foundation for Basic Research (No. 18-415-220001), Altai State Medical University.</p><p><strong>Conflict of interest:</strong> Authors declare no conflict of interest.</p><p><strong>Author contributions</strong><br />Conception and study design: A.P. Momot, V.M. Vdovin, I.I. Shakhmatov</p><p>Data collection: V.M. Vdovin, D.A. Orekhov, V.O. Krasyukova, N.A. Lycheva, D.A. Momot, V.E. Chernus, V.V. Terjaev</p><p>Data analysis: A.P. Momot, V.M. Vdovin</p><p>Drafting the article: V.M. Vdovin, A.P. Momot</p><p>Critical revision of the article: A.P. Momot, В V.M. Vdovin</p><p>Statistical analysis: V.M. Vdovin</p><p>Final approval of the version to be published: V.M. Vdovin, A.P. Momot, D.A. Orekhov, V.O. Krasyukova, I.I. Shakhmatov, N.A. Lycheva, D.A. Momot, V.E. Chernus, V.V. Terjaev</p>
Physical pretraining of 102 Wistar rats during 30 days altered the reactions of haemostasis system to one-day hypobaric hypoxia. Decreased level of thrombinemia, ameliorated platelete, and plasma hаemostasis, increased anticoagulation, and fibrinolytic activity were observed. These changes were more pronounced in the experimental group of animals having experienced intensive physical training.
Hypothermia produces a generalized impact on an organism, with involvement of all organs and systems into the response. It was shown that hypothermia promotes multi-organ dysfunction syndrome, which makes it important to study the influence of hypothermia on condition of hemostasis and microcirculatory systems. Aim. To study the condition of the hemostasis system and the microcirculatory bed in different periods of moderate hypothermia in rats. Materials and Methods. The current study was performed on 50 male Wistar rats. Condition of microcirculatory blood stream in all animals was assessed with laser Doppler flowmetry. Condition of hemostasis system was studied according to routine protocols and an integrated method of examination – thromboelastography. Statistical analysis was performed using Statistica 6.0 software package (StatSoft, USA) with calculation of Mann-Whitney nonparametric test. Results. Analysis of the experimental data showed that moderate hypothermia produced a pronounced modulating influence on the microcirculatory system. Vasodilatation occurred immediately after reaching the stage of hypothermia, suggesting the beginning of decompensation in the experimental animals. The highest risk for hemodynamic pathologies was observed 5 days after cessation of cooling and was characterized by a massive reduction in the vascular tone, intensification of hemodynamics against the background appearance of thrombinemia markers in the blood stream and pronounced inhibition of fibrinolysis. Enhanced hemodynamics of the nutritional vascular bed with the underlying progressive prothrombotic condition is a potent risk factor for thrombosis and multiple organ dysfunction syndrome. Vasospasm that developed 2 weeks after recovery of the body temperature, indicated a profound modulation of vasculature and preservation of high-level sympathetic input, as well as increasing rigidity of blood vessel walls. Rising fibrinogen concentrations confirm a progressive inflammatory reaction. Conclusion. A moderate degree of hypothermia produces a pronounced modulating effect on the microcirculation. The established regularities make it possible to form a clear understanding of the course and development of the pathological reaction in the body of victims and to give recommendations on the use of pharmacological medicine for preventive therapy. Thus, a period has been established when thrombotic readiness is maximal, and use of anticoagulant and antiplatelet drugs is required, together with drugs that improve rheological properties of blood.
Aim. To study the adaptation reactions of the hemostasis system to hypercapnic hypoxia of maximum intensity in rats subjected to preliminary multiple exposure to ethylmethylhydroxypyridine succinate and hypercapnic hypoxia of submaximal intensity. Methods. In the experiment, Wistar male rats (80 individuals) were used. Training cycles: 30-fold daily exposure to hypercapnic hypoxia of submaximal intensity (20 minutes — 9.0±0.5% O2, 7.0±0.5% CO2); administration of ethylmethylhydroxypyridine succinate (50 mg/kg) to animals for 30 days; combined effects of the two described modes. Tested experimental exposure was simulated as a single hypercapnic hypoxia of maximum intensity (20 minutes — 5.0±0.5% O2, 5.0±0.5% CO2) at the end of each of three 30-day training cycles. Results. Preliminary 30-day exposure to both isolated hypercapnic hypoxia of submaximal intensity and combined exposure to ethylmethylhydroxypyridine succinate contributes to hypocoagulation shift in the hemostasis system and reduces the level of the markers of pre-thrombotic state in response to a single hypercapnic hypoxia of maximum intensity. The state of the hemostasis system after 30-day cycle of isolated use of an antihypoxant is characterized by the inhibition of the vascular-platelet system of the hemostasis system and preserved hypercoagulation shifts in its plasma unit. The obtained results suggest that both preliminary isolated effect of hypercapnic hypoxia of submaximal intensity and the combined effect of hypercapnic hypoxia and ethylmethylhydroxypyridine succinate increase the resistance of the hemostasis system in experimental animals to acute hypercapnic hypoxia of maximum intensity compared to rats of the control group. This was confirmed by the inhibition of the vascular-platelet system, hypocoagulation in the plasma unit, decrease in the level of thrombotic readiness markers and increase in the anticoagulant activity of the blood system compared to the control. At the same time, isolated course administration of ethylmethylhydroxypyridine succinate did not cause the same amount of adaptive changes to maximum intensity hypercapnic hypoxia, since only platelet suppression of the hemostasis and hypocoagulation via the internal coagulation pathway were registered. Conclusion. Isolated exposure of hypercapnic hypoxia of submaximal intensity and its combined exposure with ethylmethylhydroxypyridine succinate increase the resistance of the hemostasis system to acute hypercapnic hypoxia of maximum intensity; isolated course administration of ethylmethylhydroxypyridine succinate does not cause the same amount of adaptive changes.
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