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流场分析:计算流体动力学在流室构建中至关重要。

Flow in the well: computational fluid dynamics is essential in flow chamber construction.

机构信息

Pädiatrische Infektiologie, Klinik für Allgemeine Pädiatrie, Universitätsklinikum Düsseldorf, Moorenstr. 5, 40225, Düsseldorf, Germany,

出版信息

Cytotechnology. 2007 Sep;55(1):41-54. doi: 10.1007/s10616-007-9101-4. Epub 2007 Oct 13.

DOI:10.1007/s10616-007-9101-4
PMID:19002993
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2289785/
Abstract

A perfusion system was developed to generate well defined flow conditions within a well of a standard multidish. Human vein endothelial cells were cultured under flow conditions and cell response was analyzed by microscopy. Endothelial cells became elongated and spindle shaped. As demonstrated by computational fluid dynamics (CFD), cells were cultured under well defined but time varying shear stress conditions. A damper system was introduced which reduced pulsatile flow when using volumetric pumps. The flow and the wall shear stress distribution were analyzed by CFD for the steady and unsteady flow field. Usage of the volumetric pump caused variations of the wall shear stresses despite the controlled fluid environment and introduction of a damper system. Therefore the use of CFD analysis and experimental validation is critical in developing flow chambers and studying cell response to shear stress. The system presented gives an effortless flow chamber setup within a 6-well standard multidish.

摘要

开发了一种灌注系统,以便在标准六孔板的孔内产生明确定义的流动条件。在流动条件下培养人静脉内皮细胞,并通过显微镜分析细胞反应。内皮细胞变得细长和纺锤形。通过计算流体动力学(CFD)证明,细胞在明确定义但随时间变化的剪切应力条件下培养。引入了一个阻尼器系统,当使用容积泵时可以降低脉动流。通过 CFD 分析了稳态和非稳态流场的流动和壁面剪切应力分布。尽管控制了流体环境并引入了阻尼器系统,但使用容积泵会导致壁面剪切应力发生变化。因此,在开发流动室和研究细胞对剪切应力的反应时,CFD 分析和实验验证的使用至关重要。所提出的系统在标准六孔板内轻松设置了流动室。

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