Your search keyword '"Durkina A. V."' showing total 7 results

1. Myocardial Electrophysiological Response to Ischemia and Reperfusion Depends on the Age of Rats

Author

Minnebaeva, E. V., Durkina, A. V., Azarov, J. E., and Bernikova, O. G.

Published

2022

2. Blockade of Melatonin Receptors Abolishes Its Antiarrhythmic Effect and Slows Ventricular Conduction in Rat Hearts.

Author

Durkina, Aleksandra V., Szeiffova Bacova, Barbara, Bernikova, Olesya G., Gonotkov, Mikhail A., Sedova, Ksenia A., Cuprova, Julie, Vaykshnorayte, Marina A., Diez, Emiliano R., Prado, Natalia J., and Azarov, Jan E.

Subjects

*MELATONIN, *VENTRICULAR tachycardia, *MEMBRANE potential, *LABORATORY rats, *VENTRICULAR fibrillation

Abstract

Melatonin has been reported to cause myocardial electrophysiological changes and prevent ventricular tachycardia or fibrillation (VT/VF) in ischemia and reperfusion. We sought to identify electrophysiological targets responsible for the melatonin antiarrhythmic action and to explore whether melatonin receptor-dependent pathways or its antioxidative properties are essential for these effects. Ischemia was induced in anesthetized rats given a placebo, melatonin, and/or luzindole (MT1/MT2 melatonin receptor blocker), and epicardial mapping with reperfusion VT/VFs assessment was performed. The oxidative stress assessment and Western blotting analysis were performed in the explanted hearts. Transmembrane potentials and ionic currents were recorded in cardiomyocytes with melatonin and/or luzindole application. Melatonin reduced reperfusion VT/VF incidence associated with local activation time in logistic regression analysis. Melatonin prevented ischemia-related conduction slowing and did not change the total connexin43 (Cx43) level or oxidative stress markers, but it increased the content of a phosphorylated Cx43 variant (P-Cx43368). Luzindole abolished the melatonin antiarrhythmic effect, slowed conduction, decreased total Cx43, protein kinase Cε and P-Cx43368 levels, and the IK1 current, and caused resting membrane potential (RMP) depolarization. Neither melatonin nor luzindole modified INa current. Thus, the antiarrhythmic effect of melatonin was mediated by the receptor-dependent enhancement of impulse conduction, which was associated with Cx43 phosphorylation and maintaining the RMP level. [ABSTRACT FROM AUTHOR]

Published

2023

3. Melatonin treatment improves ventricular conduction via upregulation of Nav1.5 channel proteins and sodium current in the normal rat heart.

Author

Durkina, Aleksandra V., Bernikova, Olesya G., Gonotkov, Mikhail A., Mikhaleva, Natalia J., Sedova, Ksenia A., Malykhina, Inna A., Kuzmin, Vladislav S., Velegzhaninov, Ilya O., and Azarov, Jan E.

Subjects

*SODIUM channels, *PROTEIN expression, *MELATONIN, *ARRHYTHMIA, *LABORATORY rats

Abstract

Melatonin treatment was reported to reduce the risk of cardiac arrhythmias, and crucial for this antiarrhythmic action was the effect of melatonin on activation spread. The aim of the present study was evaluation of the mechanisms of this activation enhancement. Experiments were performed in a total of 123 control and melatonin‐treated (10 mg/kg, daily, for 7 days) male Wistar rats. In epicardial mapping studies (64 leads, interlead distance 0.5 mm) in the anesthetized animals, activation times (ATs) were determined in each lead as dV/dt minimum during QRS complex under sinus rhythm. Epicardial pacing was performed to measure conduction velocity (CV) across the mapped area. Average left ventricular ATs were shorter in the treated animals as compared to the controls, whereas the minimal epicardial ATs indicating the duration of activation propagation via the ventricular conduction system did not differ between the groups. CV was higher in the treated groups indicating that melatonin affected conduction via contractile myocardium The area of Cx43‐derived fluorescence, as well as the expression of Cx43 protein, was similar in ventricles in the control and melatonin‐treated groups. Expression of Gja1 gene transcripts encoding Cx43, was increased in the last group. An uncoupling agent octanol modified myocardial conduction properties (time of activation, action potential upstroke velocity, passive electrotonic phase duration) similarly in both groups. On the other hand, the expression of both Scn5a gene transcripts encoding Nav1.5 proteins, as well as peak density of transmembrane sodium current were increased in the ventricular myocytes from the melatonin‐treated animals. Thus, a week‐long melatonin treatment caused the increase of conduction velocity via enhancement of sodium channel proteins expression and increase of sodium current in the ventricular myocytes. [ABSTRACT FROM AUTHOR]

Published

2022

4. DETERMINANTS OF REPERFUSION ARRHYTHMIAS: ACTION POTENTIAL DURATION VERSUS DISPERSION OF REPOLARIZATION.

Author

BERNIKOVA, O. G., DURKINA, A. V., SEDOVA, K. A., and AZAROV, J. E.

Subjects

ARRHYTHMIA, REPERFUSION, VENTRICULAR tachycardia, CORONARY occlusion, LOGISTIC regression analysis

Abstract

The role of a border zone in arrhythmogenesis is not fully understood. In this study we evaluated independent contributions of action potential duration (APD) and dispersion of repolarization (DOR) across the normal/ischemic border to the development of ventricular tachycardia and/or fibrillation (VT/VF). Ischemia-reperfusion episodes were induced in anesthetized rats by transient coronary occlusion. Unipolar electrograms were recorded from ischemic and perfused areas using a 64-lead array to obtain activation times (ATs), repolarization times (RTs), activationrepolarization intervals (ARIs, a surrogate for APD) and dispersion of repolarization (DOR, as a difference between the earliest and latest RTs). Pinacidil (0.3 mg/kg) and glibenclamide (2 mg/kg) were applied to reduce DOR and to clamp APD at a lower and upper levels, respectively. In the control animals, APD shortened in the ischemic zone, DOR increased to 9 ± 3 ms, and VT/VF developed at reperfusion (6 out of 10). Pre-occlusion application of glibenclamide prolonged APD in the ischemic and perfused zones, decreased DOR to 5 ± 2 ms and did not affect VT/VF development (4 out of 11). Post-occlusion infusion of pinacidil shortened APD in the perfused zone, decreased DOR to 6 ± 3 ms and VT/VF incidence (2 out of 11). Extrasystolic burden at reperfusion was associated with VT/VF incidence in logistic regression analysis (β = 1.182, 95%CI 1.008 - 1.386, p = 0.04) and was lesser (p < 0.01) in the pinacidil group as compared to the control and glibenclamide groups. In conclusion, the results of this study suggest that the APDs in the perfused zone were a superior arrhythmogenic factor in respect to DOR in the present ischemia-reperfusion model. [ABSTRACT FROM AUTHOR]

Published

2021

5. MELATONIN PRETREATMENT DOES NOT MODIFY EXTRASYSTOLIC BURDEN IN THE RAT ISCHEMIA-REPERFUSION MODEL.

Author

DURKINA, A. V., BERNIKOVA, O. G., MIKHALEVA, N. J., PADERIN, N. M., SEDOVA, K. A., GONOTKOV, M. A., KUZMIN, V. S., and AZAROV, J. E.

Abstract

The mechanism of reentrant ventricular tachyarrhythmias complicating acute myocardial ischemia is largely based on the interaction between an arrhythmogenic substrate and triggers. Melatonin was proposed as an antiarrhythmic medication and was shown to ameliorate the arrhythmogenic substrate. Also, melatonin provides a sympatholytic effect in different settings and might attenuate ectopic activity, which provides reentry triggers. In the present study, we aimed at evaluating the melatonin effects on cardiac sympathetic activity and the incidence of premature ventricular beats during the episode of ischemia-reperfusion. Experiments were done in a total of 26 control and 28 melatonin-treated (10 mg/kg, daily, for 7 days) male rats. Sympathetic fibers density was assessed by glyoxylic acid-induced fluorescence. Continuous electrocardiograms recording was performed during ischemia-reperfusion episodes (5 min/5 min, respectively) induced by reversible coronary occlusion. Myocardial expression of tyrosine hydroxylase, a rate-limiting enzyme of catecholamine biosynthesis was assessed by Western blotting. No differences in the state of sympathetic innervation were observed in histochemical analysis. However, Western blotting analysis demonstrated that melatonin treatment suppressed tyrosine hydroxylase expression in the non-ischemic (p < 0.05 versus control) but not ischemic regions of myocardium. The melatonin-treated animals had longer RR-intervals in the baseline state than the control animals (264 ± 48 ms versus 237 ± 33 ms, p = 0.044, respectively), but this difference decayed during the period of ischemia due to the increase of heart rate in the treated group. The number of premature ventricular beats did not differ between the control and treated groups during the ischemic and reperfusion periods. One-week melatonin pretreatment caused a slight peripheral sympatholytic effect that attenuated during ischemia and completely disappeared by the onset of reperfusion. The slight expression of sympathetic downregulation was associated with the lack of any effect of melatonin on extrasystolic burden. Collectively, the data suggest that melatonin cannot target the triggers of reentrant arrhythmias. [ABSTRACT FROM AUTHOR]

Published

2021

6. Relation of the neritic microfaunas and continental microfloras with the conodont and other pelagic faunas of the latest part of the Famennian

Author

Streel M., Belka Z., Dreesen R., Durkina A. V., Groos Uffenorde H., Hance L., Hartkopf Fröder C., Haydukiewicz J., Korn D., Piecha M., PERRI, MARIA CRISTINA, SPALLETTA, CLAUDIA, Streel M., Belka Z., Dreesen R., Durkina A.V., Groos-Uffenorde H., Hance L., Hartkopf-Fröder C., Haydukiewicz J., Korn D., Perri M.C., Piecha M., and Spalletta C.

Published

2004

7. Managing of ventricular reperfusion tachyarrhythmias - focus on a perfused myocardium.

Author

Bernikova OG, Sedova KA, Durkina AV, and Azarov JE

Subjects

Action Potentials physiology, Animals, Arrhythmias, Cardiac physiopathology, Electrocardiography methods, Male, Rats, Rats, Wistar, Heart physiopathology, Myocardium pathology, Reperfusion Injury physiopathology, Tachycardia, Ventricular physiopathology

Abstract

In this study we tested a hypothesis that reperfusion ventricular tachyarrhythmias can be modified by direct control of repolarization duration in the perfused myocardium during ischemic exposure. After induction of coronary occlusion, three groups of rats were given agencies affecting repolarization duration tetraethylammonium (TEA) 4 mg/kg, n = 9; pinacidil (Pin) 0.3 mg/kg, n = 11, and saline as placebo (control) n = 10. Unipolar electrograms were recorded from ischemic and perfused areas using an array of 64-electrodes to obtain activation times (ATs), repolarization times (RTs), activation-repolarization intervals (ARIs) and dispersion of repolarization (DOR). During ischemia/reperfusion ARIs in perfused area did not change in the control, significantly increased in the TEA and decreased in the Pin group in respect to baseline, whereas ARIs significantly decreased in the ischemic zone in all groups. DOR also significantly increased in all groups at ischemia and reperfusion. The incidence and total arrhythmia score of reperfusion tachyarrhythmias were significantly greater in TEA group compared to Pin and control groups. In multivariate regression analysis, incidence of VT/VFs and total arrhythmia score were associated with ARIs in the perfused area. Thus, the effect on repolarization durations in the perfused area modified the incidence and severity of the reperfusion-induced ventricular tachyarrhythmias.

Published

2019