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Issue title: 25th Anniversary Volume. Perspectives in Biorheology II. Festschrift for Syoten Oka
Guest editors: Eiichi Fukada and Takehiko Azuma
Article type: Research Article
Authors: Kawamoto, Yoshitaka; * | Kaibara, Makoto; **
Affiliations: The Institute of Physical and Chemical Research, Wako, Saitama 351-01, Japan
Correspondence: [**] To whom correspondence should be addressed.
Note: [*] Sumitomo 3M Ltd., Minamihashimoto, Sagamihara, Kanagawa 229, Japan.
Abstract: The behavior of a newly developed damped oscillation type rheometer was analyzed for fibrinogen solution and blood during coagulation. This rheometer consists of a cylindrical tube suspended from a torsion wire, that is filled with liquid to be tested. The logarithmic damping factor (LDF) during coagulation for blood and fibrinogen solution was obtained by this rheometer, which was closely related to the changes of viscosity and/or viscoelasticity of the blood sample. The slight increase of LDF prior to the rapid decrease was observed for blood. The increase of LDF would be reflected in the formation of the aggregation structure of red blood cells (rouleaux network) prior to the formation of fibrin network. The value of LDF for fibrinogen solution sharply increased and then decreased through a maximum value with the progress of coagulation, although the change of LDF was remarkably dependent on the fibrinogen concentration. The initial increase in LDF for fibrinogen solution was considered to be due to the formation of small clots in the solution. The decrease in LDF after attaining a maximum value is ascribed to the formation of fully developed fibrin network. The maximum value of LDF during coagulation for fibrinogen solution is higher than that for blood. The behavior was compared with that for non-biological fluids such as viscosity standard liquids and polyvinyl alcohol solution. From those data, it was concluded that the higher value of LDF than that for Newtonian liquids was due to the formation of aggregation structure or inhomogeneous fine clots in the liquid, which was accompanied with the appearance of the elasticity.
Keywords: Damped oscillation rheometer, Blood coagulation, Fibrinogen solution, Viscoelasticity
DOI: 10.3233/BIR-1988-251-238
Journal: Biorheology, vol. 25, no. 1-2, pp. 289-295, 1988
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