A lipid-structured mathematical model of atherosclerosis with macrophage proliferation

We extend the lipid-structured model for atherosclerotic plaque development of Ford et al. (2019) to account for macrophage proliferation. Proliferation is modelled as a non-local decrease in the lipid structural variable that is similar to the treatment of cell division in size-structured models (e...

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Veröffentlicht in:	arXiv.org 2022-05
Hauptverfasser:	Chambers, Keith L, Watson, Michael G, Myerscough, Mary R
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Sprache:	eng
Schlagworte:	Atherosclerosis Cell division Lipids Macrophages Mathematical models Recruitment
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creator	Chambers, Keith L Watson, Michael G Myerscough, Mary R
description	We extend the lipid-structured model for atherosclerotic plaque development of Ford et al. (2019) to account for macrophage proliferation. Proliferation is modelled as a non-local decrease in the lipid structural variable that is similar to the treatment of cell division in size-structured models (e.g. Efendiev et al. (2018)). Steady state analysis indicates that proliferation assists in reducing eventual necrotic core size and acts to spread the lipid load of the macrophage population amongst the cells. The relative contribution of plaque macrophages by proliferation and recruitment from the bloodstream is also examined. The model suggests that a more proliferative plaque differs from an equivalent (same lipid content and cell count) recruitment-dominant plaque only in the way lipid is distributed amongst the macrophages.
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(2019) to account for macrophage proliferation. Proliferation is modelled as a non-local decrease in the lipid structural variable that is similar to the treatment of cell division in size-structured models (e.g. Efendiev et al. (2018)). Steady state analysis indicates that proliferation assists in reducing eventual necrotic core size and acts to spread the lipid load of the macrophage population amongst the cells. The relative contribution of plaque macrophages by proliferation and recruitment from the bloodstream is also examined. 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subjects	Atherosclerosis Cell division Lipids Macrophages Mathematical models Recruitment
title	A lipid-structured mathematical model of atherosclerosis with macrophage proliferation
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