Recovery time course of erythrocyte deformability following exposure to shear is dependent upon conditioning shear stress

Kuck Lennart; Grau Marijke; Simmonds Michael J.

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Recovery time course of erythrocyte deformability following exposure to shear is dependent upon conditioning shear stress

机译：接触剪切后红细胞变形能力的恢复时间过程取决于剪切应力的调节

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摘要

BACKGROUND: Red blood cell (RBC) deformability may increase, or decrease, following application of shear stress ("shear conditioning"), depending upon the specific magnitude and duration of exposure. However, the time course of altered RBC deformability following shear remains unresolved.

机译：背景：根据暴露的具体幅度和持续时间，在施加切应力（“剪切调节”）后，红细胞（RBC）的可变形性可能会增加或减少。然而，剪切后红细胞变形能力改变的时程仍未解决。

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来源
《Biorheology 》 |2017年第6期| 141-152| 共12页
作者
Kuck Lennart; Grau Marijke; Simmonds Michael J.;
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作者单位

Griffith Univ, Menzies Hlth Inst Queensland, Nathan, Qld, Australia;

German Sport Univ Cologne, Dept Mol & Cellular Sport Med, Cologne, Germany;

Griffith Univ, Menzies Hlth Inst Queensland, Nathan, Qld, Australia;

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收录信息美国《科学引文索引》(SCI);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类
关键词
Haemorheology; subhaemolytic; cellular deformability; reversibility;

机译：血液流变学;亚溶血性;细胞变形性;可逆性;

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专利

1. Biphasic impairment of erythrocyte deformability in response to repeated, short duration exposures of supraphysiological, subhaemolytic shear stress [J] . McNamee Antony P., Tansley Geoff D., Sabapathy Surendran, Biorheology . 2016 ,第3a4期

机译：红细胞变形能力的双相损伤，对反复，短期持续的超生理，溶血性切应力的反应
2. Recovery of the deformability of the aged metallic glass Pd40Cu30Ni10P20 under conditions of testing for shear stress relaxation [J] . Nguen NTN, Khonik SV, Yazvitskii MY, Physics of the solid state . 2009 ,第3期

机译：在剪切应力松弛试验条件下，时效金属玻璃Pd40Cu30Ni10P20变形能力的恢复
3. Shear Stress Ameliorates Superoxide Impairment to Erythrocyte Deformability With Concurrent Nitric Oxide Synthase Activation [J] . Lennart Kuck, Marijke Grau, Wilhelm Bloch, Frontiers in Physiology . 2019 ,第12期

机译：剪切应力可同时氧化氮合酶激活，减轻超氧化物对红细胞变形能力的损害。
4. Raman Spectroscopy And Chemometrics To Investigate Time Dependent Physical Changes Of Insulin In Shear Stress Conditions [C] . Grant T. Webster, Jonathan Dusting, Stavroula Balabani, International Conference on Raman Spectroscopy . 2010

机译：拉曼光谱和化学计量学研究剪切应力条件下胰岛素的时间依赖性物理变化
5. Time-dependent non-reflecting boundary conditions for simulations of wave propagation in geophysical shear flows. [D] . Victor, Nijimbere. 2010

机译：与时间相关的非反射边界条件，用于模拟地球物理剪切流中的波传播。
6. Shear Stress Ameliorates Superoxide Impairment to Erythrocyte Deformability With Concurrent Nitric Oxide Synthase Activation [O] . Lennart Kuck, Marijke Grau, Wilhelm Bloch, -1

机译：剪切应力改善并发一氧化氮合酶激活对红细胞变形能力的超氧化物损伤。
7. Through-the-thickness stress distributions near edges of composite laminates using stress recovery scheme and third order shear and normal deformable theory [O] . P.H. Shah, R.C. Batra 2015

机译：使用应力回收方案和第三阶剪切和正常可变形理论附近的复合层压板附近的厚度应力分布
8. Time Dependent, Compressible Simulations of Shear Flows: Tests of Outflow Boundary Conditions [R] . Boris, J. P., Oran, E. S., Fritts, M. J., 1983

机译：剪切流的时间依赖性，可压缩模拟：流出边界条件的测试

Recovery time course of erythrocyte deformability following exposure to shear is dependent upon conditioning shear stress

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