Effect of normal human erythrocytes on blood rheology in microcirculation.

Osaka city medical journal Pub Date : 2007-12-01

Chika Hirata, Hiromi Kobayashi, Nobuyuki Mizuno, Haruo Kutsuna, Ko Ishina, Masamitsu Ishii

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Abstract

Background: Effects of RBCs on blood rheology were studied using a microchannel array flow analyzer (MC-FAN).

Methods: Fluidity of four types of samples prepared from the venous blood of healthy volunteers was examined in terms of passage time through the microchannel array of MC-FAN (model KH-3): (1) physiological saline-RBC suspensions and plasma-RBC suspensions, each adjusted to a predetermined hematocrit value; (2) suspensions of glutaraldehyde-treated hardened RBCs; (3) fibrinogen-RBC and albumin-RBC suspensions; and (4) dextran-RBC suspensions.

Results: Hematocrit positively correlated with passage time. Both plasma and fibrinogen prolonged passage time significantly. Hardened RBCs completely obstructed the microchannel. The passage time of dextran-RBC suspensions was prolonged in a dextran molecular weight- and concentration-dependent manner and was dependent on the passage time of the solution alone.

Conclusions: Blood rheology, as determined by MC-FAN, is affected not by RBC aggregation but hematocrit, RBC deformability, and the passage time of the solution.

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正常人红细胞对微循环血液流变学的影响。

背景:采用微通道阵列血流分析仪(MC-FAN)研究了红细胞对血液流变学的影响。方法:通过MC-FAN(型号KH-3)微通道阵列检测健康志愿者静脉血制备的四种样品的流动性，通过时间:(1)生理盐水-红细胞悬浮液和血浆-红细胞悬浮液，每种悬浮液调整到预定的红细胞比容值;(2)经戊二醛处理的硬化红细胞悬浮液;(3)纤维蛋白原-红细胞和白蛋白-红细胞混悬液;(4)右旋糖酐-红细胞悬液。结果:红细胞压积与时间呈正相关。血浆和纤维蛋白原均可显著延长通过时间。硬化的红细胞完全阻塞了微通道。右旋糖酐-红细胞悬浮液的通过时间以右旋糖酐分子量和浓度依赖的方式延长，并且仅依赖于溶液的通过时间。结论:MC-FAN测定的血液流变学不受红细胞聚集的影响，而受红细胞压积、红细胞变形能力和溶液通过时间的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Osaka city medical journal

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