Theoretical Model for Calculation Electrophysical Properties of Erythrocytes and Its Application in Biomechanics

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Date

2017-10-17

Authors

Batyuk, Liliya
Chovpan, Hanna
Kizilova, Nataliya

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Abstract

The theoretical model is proposed for calculating the electrophysical properties of erythrocytes and its application in biomechanics. The research is based on the fact that existing theoretical models of electrophoresis of blood elements do not reflect often the real properties of cells in pathological conditions. Of the numerous biophysical and biomechanical studies of blood cells, it follows that in the course of aging, the permeability of the cell membrane changes and the differentiation of cell structures is disturbed. Analogous arguments arise when studying the evolution of ion-exchange properties of blood cells in the pathology of the organism. Hence it follows the usefulness of the electrophoretic technique for studying cells under these conditions and the value of the proposed model for the interpretation of these experiments.

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Keywords

electrophoretic mobility, dielectric permeability, erythrocyte, electrokinetic potential

Citation

Batyuk L. Theoretical Model for Calculation Electrophysical Properties of Erythrocytes and Its Application in Biomechanics / L. Batyuk, G. Chovpan, N. Kizilova // 2017 IEEE International Young Scientists Forum on Applied Physics and Engineering, Lviv, 17–20 October, 2017 : Book of Abstracts. – Lviv, 2017. – P. 89–90.

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