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Issue title: Selected Proceedings of the European Society for Clinical Hemorheology (E.S.C.H.), 26–29 June, 2005, Siena, Italy
Article type: Research Article
Authors: Riquelme, Bibiana; | Foresto, Patricia; ; | D'Arrigo, Mabel | Filippini, Fernando | Valverde, Juana;
Affiliations: Área Física, Fac. Cs. Bioquímicas y Farmacéuticas, Universidad Nacional de Rosario, Argentina | Óptica Aplicada a la Biología, Instituto de Física Rosario (CONICET-UNR), Argentina | Laboratorio de Inmuno-Hemorrelogía, Dpto. de Bioquímica Clínica, Fac. Cs. Bioquímicas y Farmacéuticas, Universidad Nacional de Rosario, Argentina | Cátedra de Clínica Médica, Fac. de Ciencias Médicas, Universidad Nacional de Rosario, Argentina
Note: [] Corresponding author: Patricia Foresto, Dorrego 2366, 2000 Rosario, Argentina. Tel.: +54 341 4815441; Fax: +54 341 4370765; E-mail: pgforesto@yahoo.com.ar.
Abstract: Hypertension (HTA) and dyslipidemia (DLP) represent major risk factors for cardiovascular and cerebral-vascular ischemic disease. The mechanisms through which they can induce vascular damage are both metabolic and mechanical. Hemorheological alterations in HTA are result of changes affecting both red cell intrinsic structure and their interactions with the plasmatic components. Several hemorheological determinants (biochemical, ionic, metabolic and rheologic) could influence and produce an impaired erythrocyte deformability determining an increased flow resistance in the microcirculation. The “Erythrodeformeter” allows obtaining the stationary and dynamical linear parameters of erythrocyte membrane by laser diffractometry. Stationary and oscillatory shear-induced elongation of cells leads to an elliptical diffraction pattern, its geometric characteristics being directly related to those of deformed RBC. Erythrocyte stationary parameters (Deformability Index, surface viscosity and elastic modulus) were obtained in stationary regime. Complex viscoelastic parameters (dynamic elasticity, dynamic loss, viscous and elastic components of the complex viscosity) were obtained when operating in oscillating mode. The diffractometric method is sensitive to detect pathological or induced alterations on RBC membrane, which can affect blood flow in vivo. The rheological parameters obtained give important information about the erythrocyte membrane and allow to detect and characterize erythrocyte alterations in vascular pathologies.
Keywords: Diffractometry, erythrocyte viscoelastic properties, hemorheology, hypertension
Journal: Clinical Hemorheology and Microcirculation, vol. 35, no. 1-2, pp. 277-281, 2006
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