Abstract

The need for emergency cessation of ventricular fibrillation is one of the problems of modern reanimatology. In spite of searches for novel methods, there is the only effective method — electrical cardiac defibrillation. Objective: to investigate the effect of different forms of pulses on cell membranes in a model experiment and to assess their use for effective cardiac defibrillation. Materials and methods. The Maxwell model was used for theoretical analysis of the spatial distribution of an electric field in the red blood cell membrane. The electric effect on a single cell was calculated using the experimental findings and the equivalent electrical circuit of the myocardial structure during a defibrillation procedure. The cardiomyocyte membrane potential upon exposure to defibrillator discharge was estimated. Exposure of the red blood cell membrane to single, two unipolar and two heteropolar pulses was examined. Results. There is non-additivity of speeds upon double exposure as compared to single one. Single pulse causes a lower effect of electroporation than two double pulses. Hyperpolarization and depolarization processes in the cardiomyocyte membranes occur successively during electrical cardiac defibrillation. Conclusion. Two heteropolar pulses cause an effect of biological membrane electroporation with a greater probability than two unipolar ones.

Highlights

  • Одной из проблем реаниматологии остается необходимость экстренного прекращения фибрилляции желудочков сердца

  • Two heteropolar pulses cause an effect of biological membrane electroporation with a greater probability than two unipolar ones

  • During study of pulsed electric field on biological membrane for the purpose of electroporation it is necessary to record the intensity of electric field, duration and shape of the impulse, which are formed in a cell suspension

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Summary

Introduction

Одной из проблем реаниматологии остается необходимость экстренного прекращения фибрилляции желудочков сердца. Несмотря на поиски новых методов, существует лишь единственный эффективный метод — электрическая дефибрилляция сердца [1] — экстренное прекращение фибрилляции желудочков сердца с помощью высоковольтного импульсного электрического поля [2]. Процесс действия электрического поля на мембрану кардиомиоцита представляет большой интерес и исследуется как экспериментально, так и теоретически [3]. Фундаментальные работы по изучению эффективности дефибрилляции в зависимости от амплитуды импульса, его формы и длительности были проведены в Институте общей реаниматологии РАМН Н. Эффекты действия электрического поля зависят от напряженности поля, создаваемой разрядом в структуре кардиомиоцитов. С помощью математической модели исследовалась неоднородность электрического поля в мембране кардиомиоцита при дефибрилляции [3]

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