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- Bu səhifədəki naviqasiya:
- , Yu.I. Oshchepkova 1* , P.B. Usmanov 2 , Sh.I. Salikhov 1
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Poster presentation 329 STUDY OF ANTIARRHYTHMIC ACTIVITY OF MODIFIED FORMS OF AMIODARON V.V. Uzbekov 1 , I.Z. Jumayev 2 , Sh.Yu. Rustamov 2 , Yu.I. Oshchepkova 1* , P.B. Usmanov 2 , Sh.I. Salikhov 1 1) A.S. Sadykov Institute of Bioorganic Chemistry Academy of Sciences of the Republic of Uzbekistan, * e-mail: joshepkova05@rambler.ru 2) Institute of Biophysics and Biochemistry National University of Uzbekistan Heart rhythm disturbances are one of the most complex and urgent problems of modern cardiology. Arrhythmias are detected both in various cardiovascular diseases and in healthy individuals. The spectrum of clinical manifestations of cardiac arrhythmias varies from asymptomatic to severe course, from prognostically insignificant arrhythmias to determining the nature of the long-term outcome. Amiodarone is the most effective of the existing antiarrhythmic drugs. It is even called "arrhythmolytic drug". Along with all the advantages, the main disadvantage of amiodarone is the likelihood of developing many extracardiac side effects, which are observed in 10-52% of patients with long-term use of the drug. The aim of this work is to study the antiarrhythmic and inotropic activity of complexes of amiodarone hydrochloride (AmdHC) with glycyrrhizic acid (GA) and its monoammonium salt (MASGA) in models of CaCl 2 -induced arrhythmia in comparison with АmdHC. The study in experiments on the papillary muscle of the rat heart was carried out on the complexes of GA-AmdHC (2:1), GA-AmdHC (4:1), GA-AmdHC (8:1), MASGA- AmdHC (2:1), MASGA-AmdHC (4:1) and MASGA-AmdHC (8:1). It was determined that in the presence of complexes GA-AmdHC (2:1) (5-100 μM), GA-AmdHC (4:1) (5- 60 μM), GA-AmdHC (8:1) (5-40 µM), MASGA-AmdHC (2:1) (5-120 µM), MASGA- AmdHC (4:1) (5-100 µM) and MASGA-AmdHC (8:1) (5-30 µM) the papillary muscle contraction force decreases to 12.3±5.5%, 16.4±3.9%, 6.2±3.4%, 4.3±3.5%, 3.8±3.5 % and 2.7±2.4%, respectively, from the control level. Based on the conducted studies, it can be assumed that GA-AmdHC (8:1) and MASGA-AmdHC (8:1) have a stronger negative inotropic effect than amiodarone and other complexes. When studying the effects of complex compounds on the CaCl 2 -induced arrhythmia model, it was found that their addition during the second phase of CaCl 2 action leads to the restoration of papillary muscle contractions in response to stimulation. In control experiments with amiodarone, it was found that, in its presence, the restoration of muscle contractions occurs 10 min after its introduction into the incubation medium. In the presence of GA- AmdHC (8:1), the restoration of muscle contractions occurred within 7 minutes after its introduction into the incubation medium. A more pronounced effect on the background of CaCl 2 -induced arrhythmia has MASGA-AmdHC (8:1), in the presence of which the restoration of muscle contractions was observed within 3 minutes after its introduction into the incubation medium. The data obtained indicate that the modification of the structure of AmdHC by the introduction of MASGA provides the complex MASGA- AmdHC (8:1) with a higher negative inotropic and antiarrhythmic activity. Such an increase in the inotropic and antiarrhythmic activity of the MASGA-AmdHC (8:1) complex may be due to the presence of additional MASGA groups in its structure, which can increase its lipophilicity and, accordingly, membrane activity. |