Complex viscoelasticity of normal and lectin treated erythrocytes using laser diffractometry.

A new method to find directly complex viscoelastic parameters (CVP) of red blood cells (RBC) is presented in this paper. Experimental determinations were carried out in an Erythrodeformeter (Rasia et al., 1986) operating in oscillating mode (0.5 to 3.5 Hz). The Erythrodeformeter performs direct determination of CVP of erythrocytes undergoing sinusoidal shear stresses by laser diffractometry. The measurements lead to the determination of mean values of the four components of erythrocyte complex viscoelasticity. The influence of the alterations induced on erythrocyte membrane by vegetable lactins (Ulex europaeus, wheat germ agglutinin and Enterolobium contorticilicum seeds) was analyzed to verify the sensitivity of this method. Differences observed between the CVP parameters of treated cells and the ones corresponding to control samples (non treated cells) are analyzed. Results obtained from cells treated with wheat germ agglutinin agree with observations published by Smith and Hochmuth (1982). Determinations of RBC complex viscoelasticity carried out by laser diffractometry could become an important tool to understand the influence of the factors associated with alterations of the rheologic properties of RBC membrane, which can affect the in vivo blood flow.