Role of Secondary Brain Damage Factors in Activation of VascularPlatelet Hemostasis in Traumatic Brain Injury

Boyarinov, G. A.; Boyarinova, L. V.; Deryugina, А. V.; Соловьева, О. Д.; Zaytsev, R. R.; Voyennov, O.V.; Мошнина, Е. В.; Shumilova, Anastasiia

doi:10.15360/1813-9779-2016-5-42-51

Cited by 7 publications

(2 citation statements)

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“…The normal LPO intensity is known to meet the requirements of cellular metabolism, ensuring the vital activity of cells and their normal functioning. The excessive activation of these processes leads to membrane damage and is observed during the development of pathology [ 13 ]. The analysis of the data obtained in the course of the study suggests that the use of molecular hydrogen in heart valve surgery reduces the level of oxidative stress.…”

Section: Resultsmentioning

confidence: 99%

Application of Molecular Hydrogen in Heart Surgery under Cardiopulmonary Bypass

Danilova¹,

Brichkin²,

Медведев³

et al. 2021

Sovrem Tehnol Med

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The aim of this work was to study the effect of molecular hydrogen on oxidative processes in cardiac surgery patients with acquired valve heart disease applied during surgery under cardiopulmonary bypass (CPB). Materials and Methods. The study involved 20 patients (16 men and 4 women) with acquired heart valve disease who were operated on under CPB. Two groups of patients were formed. In group 1 (n=11), anesthesia included inhalations of molecular hydrogen, which was supplied to the breathing circuit of the ventilator at a concentration of 1.5-2.0% immediately after tracheal intubation and throughout the operation. In group 2 (n=9), inhalation of molecular hydrogen was not performed. Blood sampling was taken at 4 stages: immediately after anesthesia induction, before CPB and after its termination, and also one day after the operation. The intensity of the processes of lipid peroxidation was evaluated by the level of diene (DC) and triene (TC) conjugates, Schiff bases (SB). Results. In the patients of group 1, the arterial blood samples showed a decrease in the level of TC and SB, as compared to the first stage of the study, before the initiation of CPB and one day after the operation. An increase in the level of DC and TC was detected after the termination of CPB (p<0.05). In the venous blood samples, an increase in the level of DC was noted before the initiation of CPB, which was restored by the third stage of the study (p<0.05). At the same time, after the termination of CPB, a tendency towards a decrease in TC and SB was observed, which persisted one day after the operation. In the patients of group 2, an increase in the concentration of SB in the arterial blood samples was recorded during the study as compared to the first stage. The level of TC and SB in the venous blood samples increased one day after the operation. Conclusion. Intraoperative inhalation of molecular hydrogen leads to a decrease in the oxidative stress manifestation, it being most pronounced one day after the operation. This suggests that molecular hydrogen can be used in cardiac surgery as an effective and safe antioxidant.

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Section: Resultsmentioning

confidence: 99%

Application of Molecular Hydrogen in Heart Surgery under Cardiopulmonary Bypass

Danilova¹,

Brichkin²,

Медведев³

et al. 2021

Sovrem Tehnol Med

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“…способствует выживаемости органелл как в эндотелиоцитах, так в клетках других органов, вследствие восстановления синтеза АТФ и снижения образования активных форм кислорода. Сукцинат свободно проникает через клеточную мембрану, цитоплазму в митохондрии и метаболизируется в цикле Кребса, что позволяет увеличить интенсивность переноса электронов, потенцируя эффективность дыхания и синтез АТФ через комплекс II, минуя митохондриальный комплекс I. Восстановленный энергосинтез даёт возможность корригировать метаболический дисбаланс митохондрий и поддерживать жизнедеятельность не только эндотелиоцитов и клеток других органов, но и всего организма в целом [24][25][26][27][28][29][30].…”

Section: результаты и обсуждениеunclassified

Possibilities of Hyperinflammation Correction in COVID-19

Симутис

Boyarinov

Yuriev

et al. 2021

A&Ch

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Objective. To evaluate the effect of sodium meglumine succinate on the severity of the systemic inflammatory response syndrome when used in complex therapy in patients with severe COVID-19.Material and Methods. The clinical and laboratory data of 12 patients with the diagnosis «Novel coronavirus infection COVID-19 complicated by community-acquired bilateral polysegmental interstitial pneumonia» were analyzed. All patients underwent intensive therapy with a limited volume of water load in the intensive care unit in accordance with the recommendations of the Ministry of Health of the Russian Federation. Seven patients (observation group) received a polyelectrolyte solution containing meglumine sodium succinate (Reamberin) as part of the therapy at a daily dose of 5 ml/kg during the entire period of stay in the ICU (3–10 days). The control group included 5 patients who received a similar volume of a conventional polyelectrolyte solution containing no metabolically active substrates. The study was pilot in nature due to the small number of patients. The laboratory parameters of arterial and venous blood were measured at the following stages: 1) upon admission to the ICU; 2) 2–4 hours after the completion of Reamberin infusion; 3) 8–12 hours after drug administration; 4) 24 hours after the start of intensive care. Mortality rate and the incidence of thrombotic complications in the groups were assessed on the 28th day of observation. The presence of the therapeutic intervention effect was established using multivariate analysis of variance (MANOVA).Results. A positive effect of the study drug on the severity of systemic inflammatory response syndrome (SIRS) against the background of ongoing etiotropic therapy was noted. Efficiency criteria were the correction of hyperfibrinogenemia, normalization of the platelet count, decrease in the level of C-reactive protein, ferritin, and leukocytosis. A significant decrease in the frequency of thromboembolic events was observed within 28 days of treatment, as well as a reduction in the length of time the patients spent in the ICU.Conclusion. Based on the results of the pilot study, it can be assumed that the antihypoxic and antiradical effects of the drug contribute to the reduction of pulmonary and systemic endotheliitis, which is characteristic of severe forms of the disease and, as a result, inhibits the development of the systemic inflammatory response syndrome. The data obtained can serve as a basis for further in-depth studies.

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