Typical Changes in Electrophoretic Mobility of Erythrocytes under Stress Conditions

Abstract: Various stress procedures (swimming, hypobaric hypoxia, and exotoxin administration) induced similar changes in electrophoretic mobility of rat erythrocytes. The degree and directionality of phasic changes in electrophoretic mobility depended on the concentration of stress hormones.

“…The value of EPME depends on LPO and determines aggregation. Variations in EPME are a typical response to alteration [6], which reflects the pathogenesis of various diseases. The maintenance of energy stability of erythrocytes is important to correct hypoxia of the organism.…”

Effect of ubiquinone-10 and succinic acid on functional characteristics of erythrocytes in rats with epinephrine toxemia

“…The value of EPME depends on LPO and determines aggregation. Variations in EPME are a typical response to alteration [6], which reflects the pathogenesis of various diseases. The maintenance of energy stability of erythrocytes is important to correct hypoxia of the organism.…”

Effect of ubiquinone-10 and succinic acid on functional characteristics of erythrocytes in rats with epinephrine toxemia

“…Як модель клітинних мембран використовували відмиті «тіні» еритроцитів, які по суті є їх мембранною фракцією і достатньо адекватною моделлю загального пулу клітинних мембран організ-му [24][25][26].…”

Vascular Endothelial Growth Factor During Physical Loads With Different Mechanism of Energy’s Providing of Muscular Work

“…It is known that in extreme conditions adaptation processes are initiated in organism: mobilization of reserve possibilities, reconstruction of homeostatic mechanisms (Deryugina et al, 2010), plastic and energetic exchange intensity change; a key role in organism metabolism belongs to blood and first of all to erythrocytes that supply the tissues by oxygen (Krylov et al, 1998;Krylov et al, 2009). The overall performance of erythrocyte oxygen transporting function is possible only in the conditions of their fast and unhampered motion through the blood circulatory system due to electrostatic repulsion of cells from both each other and vessel walls (Cook et al, 1961).…”

Change of Electrokinetic Potential Value of Rat Blood Erythrocytes Irradiated by EMI EHF