组织工程生物反应器内纤维增强灌注的数学建模。

Mathematical modelling of fibre-enhanced perfusion inside a tissue-engineering bioreactor.

作者信息

Whittaker Robert J, Booth Richard, Dyson Rosemary, Bailey Clare, Parsons Chini Louise, Naire Shailesh, Payvandi Sevil, Rong Zimei, Woollard Hannah, Cummings Linda J, Waters Sarah L, Mawasse Lina, Chaudhuri Julian B, Ellis Marianne J, Michael Vipin, Kuiper Nicola J, Cartmell Sarah

机构信息

Mathematical Institute, University of Oxford, OX13LB, UK.

出版信息

J Theor Biol. 2009 Feb 21;256(4):533-46. doi: 10.1016/j.jtbi.2008.10.013. Epub 2008 Oct 25.

DOI:10.1016/j.jtbi.2008.10.013

PMID:19014952

Abstract

We develop a simple mathematical model for forced flow of culture medium through a porous scaffold in a tissue-engineering bioreactor. Porous-walled hollow fibres penetrate the scaffold and act as additional sources of culture medium. The model, based on Darcy's law, is used to examine the nutrient and shear-stress distributions throughout the scaffold. We consider several configurations of fibres and inlet and outlet pipes. Compared with a numerical solution of the full Navier-Stokes equations within the complex scaffold geometry, the modelling approach is cheap, and does not require knowledge of the detailed microstructure of the particular scaffold being used. The potential of this approach is demonstrated through quantification of the effect the additional flow from the fibres has on the nutrient and shear-stress distribution.

摘要

我们为组织工程生物反应器中培养基在多孔支架内的强制流动建立了一个简单的数学模型。多孔壁中空纤维贯穿支架，并作为培养基的额外来源。该模型基于达西定律，用于研究整个支架内的营养物质和剪切应力分布。我们考虑了纤维以及进、出口管道的几种配置。与在复杂支架几何结构内对完整纳维-斯托克斯方程的数值解相比，这种建模方法成本低廉，并且不需要了解所使用的特定支架的详细微观结构。通过量化来自纤维的额外流动对营养物质和剪切应力分布的影响，证明了这种方法的潜力。

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组织工程生物反应器内纤维增强灌注的数学建模。

Mathematical modelling of fibre-enhanced perfusion inside a tissue-engineering bioreactor.

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