Monte Carlo simulation of heterotypic cell aggregation in nonlinear shear flow

Jiakou Wang; Margaret J. Slattery; Meghan Henty Hoskins; Shile Liang; Cheng Dong; Qiang Du

doi:10.3934/mbe.2006.3.683

Monte Carlo simulation of heterotypic cell aggregation in nonlinear shear flow

Jiakou Wang
, Margaret J. Slattery
, Meghan Henty Hoskins
, Shile Liang
, Cheng Dong
, Qiang Du

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

In this paper, we develop a population balance model for cell aggregation and adhesion process in a nonuniform shear flow. Some Monte Carlo simulation results based on the model are presented for the heterotypic cell-cell collision and adhesion to a substrate under dynamic shear forces. In particular, we focus on leukocyte (PMN)-melanoma cell emboli formation and subsequent tethering to the vascular endothelium (EC) as a result of cell-cell aggregation. The simulation results are compared with the results of experimental measurement. Discussions are made on how we could further improve the accuracy of the population balance type modelling.

Original language	English (US)
Pages (from-to)	683-696
Number of pages	14
Journal	Mathematical Biosciences and Engineering
Volume	3
Issue number	4
DOIs	https://doi.org/10.3934/mbe.2006.3.683
State	Published - Oct 2006

All Science Journal Classification (ASJC) codes

Modeling and Simulation
General Agricultural and Biological Sciences
Computational Mathematics
Applied Mathematics

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10.3934/mbe.2006.3.683

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abstract = "In this paper, we develop a population balance model for cell aggregation and adhesion process in a nonuniform shear flow. Some Monte Carlo simulation results based on the model are presented for the heterotypic cell-cell collision and adhesion to a substrate under dynamic shear forces. In particular, we focus on leukocyte (PMN)-melanoma cell emboli formation and subsequent tethering to the vascular endothelium (EC) as a result of cell-cell aggregation. The simulation results are compared with the results of experimental measurement. Discussions are made on how we could further improve the accuracy of the population balance type modelling.",

author = "Jiakou Wang and Slattery, \{Margaret J.\} and Hoskins, \{Meghan Henty\} and Shile Liang and Cheng Dong and Qiang Du",

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AU - Wang, Jiakou

AU - Slattery, Margaret J.

AU - Hoskins, Meghan Henty

AU - Liang, Shile

AU - Dong, Cheng

AU - Du, Qiang

PY - 2006/10

Y1 - 2006/10

N2 - In this paper, we develop a population balance model for cell aggregation and adhesion process in a nonuniform shear flow. Some Monte Carlo simulation results based on the model are presented for the heterotypic cell-cell collision and adhesion to a substrate under dynamic shear forces. In particular, we focus on leukocyte (PMN)-melanoma cell emboli formation and subsequent tethering to the vascular endothelium (EC) as a result of cell-cell aggregation. The simulation results are compared with the results of experimental measurement. Discussions are made on how we could further improve the accuracy of the population balance type modelling.

AB - In this paper, we develop a population balance model for cell aggregation and adhesion process in a nonuniform shear flow. Some Monte Carlo simulation results based on the model are presented for the heterotypic cell-cell collision and adhesion to a substrate under dynamic shear forces. In particular, we focus on leukocyte (PMN)-melanoma cell emboli formation and subsequent tethering to the vascular endothelium (EC) as a result of cell-cell aggregation. The simulation results are compared with the results of experimental measurement. Discussions are made on how we could further improve the accuracy of the population balance type modelling.

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EP - 696

JO - Mathematical Biosciences and Engineering

JF - Mathematical Biosciences and Engineering

IS - 4

ER -

Monte Carlo simulation of heterotypic cell aggregation in nonlinear shear flow

Abstract

All Science Journal Classification (ASJC) codes

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