形状对二维剪切流中非中性浮力颗粒的边缘化动力学的影响。

The effect of shape on the margination dynamics of non-neutrally buoyant particles in two-dimensional shear flows.

作者信息

Gentile F, Chiappini C, Fine D, Bhavane R C, Peluccio M S, Cheng M Ming-Cheng, Liu X, Ferrari M, Decuzzi P

机构信息

BioNEM-Center of Bio-/Nanotechnology and-/Engineering for Medicine, University of Magna Graecia at Catanzaro, Viale Europa, Loc. Germaneto, 88100 Catanzaro, Italy.

出版信息

J Biomech. 2008 Jul 19;41(10):2312-8. doi: 10.1016/j.jbiomech.2008.03.021. Epub 2008 Jun 20.

DOI:10.1016/j.jbiomech.2008.03.021

PMID:18571181

Abstract

The margination dynamics of microparticles with different shapes has been analyzed within a laminar flow mimicking the hydrodynamic conditions in the microcirculation. Silica spherical particles, quasi-hemispherical and discoidal silicon particles have been perfused in a parallel plate flow chamber. The effect of the shape and density on their margination propensity has been investigated at different physiologically relevant shear rates S. Simple scaling laws have been derived showing that the number n of marginating particles scales as S(-0.63) for the spheres; S(-0.85) for discoidal and S(-1) for quasi-hemispherical particles, regardless of their density and size. Within the range considered for the shear rate, discoidal particles marginate in a larger number compared to quasi-hemispherical and spherical particles. These results may be of interest in drug delivery and bio-imaging applications, where particles are expected to drift towards and interact with the walls of the blood vessels.

摘要

在模拟微循环流体动力学条件的层流中，分析了不同形状微粒的边缘化动力学。二氧化硅球形颗粒、准半球形和盘状硅颗粒已在平行板流动腔中灌注。在不同的生理相关剪切速率S下，研究了形状和密度对其边缘化倾向的影响。已得出简单的比例定律，表明对于球形颗粒，边缘化颗粒的数量n与S^(-0.63)成比例；对于盘状颗粒为S^(-0.85)，对于准半球形颗粒为S^(-1)，与它们的密度和大小无关。在所考虑的剪切速率范围内，与准半球形和球形颗粒相比，盘状颗粒边缘化的数量更多。这些结果可能在药物递送和生物成像应用中具有意义，在这些应用中，颗粒有望向血管壁漂移并与之相互作用。

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形状对二维剪切流中非中性浮力颗粒的边缘化动力学的影响。

The effect of shape on the margination dynamics of non-neutrally buoyant particles in two-dimensional shear flows.

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