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Mathematical Biosciences and Engineering

2011, Volume 8, Issue 2: 475-502. doi: 10.3934/mbe.2011.8.475
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Bacteria--phagocyte dynamics, axiomatic modelling and mass-action kinetics

  • 1.
    Department of Computer Science and Applied Mathematics, The Weizmann Institute, Rehovot, 76100
  • 2.
    The Estrin Family Chair of Computer Science and Applied Mathematics, Department of Computer Science and Applied Mathematics, The Weizmann Institute, Rehovot, 76100
  • Received: 01 March 2010 Accepted: 29 June 2018 Published: 01 April 2011

  • MSC : Primary: 92-06, 92B99; Secondary: 92D25.

  • Axiomatic modeling is ensued to provide a family of models that describe bacterial growth in the presence of phagocytes, or, more generally, prey dynamics in a large spatially homogenous eco-system. A classification of the possible bifurcation diagrams that arise in such models is presented. It is shown that other commonly used models that do not belong to this class may miss important features that are associated with the limited growth curve of the bacteria (prey) and the saturation associated with the phagocytosis (predator kill) term. Notably, these features appear at relatively low concentrations, much below the saturation range. Finally, combining this model with a model of neutrophil dynamics in the blood after chemotherapy treatments we obtain new insights regarding the development of infections under neutropenic conditions.

    Citation: Roy Malka, Vered Rom-Kedar. Bacteria--phagocyte dynamics,axiomatic modelling and mass-action kinetics[J]. Mathematical Biosciences and Engineering, 2011, 8(2): 475-502. doi: 10.3934/mbe.2011.8.475

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  • Axiomatic modeling is ensued to provide a family of models that describe bacterial growth in the presence of phagocytes, or, more generally, prey dynamics in a large spatially homogenous eco-system. A classification of the possible bifurcation diagrams that arise in such models is presented. It is shown that other commonly used models that do not belong to this class may miss important features that are associated with the limited growth curve of the bacteria (prey) and the saturation associated with the phagocytosis (predator kill) term. Notably, these features appear at relatively low concentrations, much below the saturation range. Finally, combining this model with a model of neutrophil dynamics in the blood after chemotherapy treatments we obtain new insights regarding the development of infections under neutropenic conditions.


  • This article has been cited by:

    1. Roy Malka, Baruch Wolach, Ronit Gavrieli, Eliezer Shochat, Vered Rom-Kedar, Evidence for bistable bacteria-neutrophil interaction and its clinical implications, 2012, 122, 0021-9738, 3002, 10.1172/JCI59832
    2. Junyan Xu, Tonghua Zhang, Keying Song, A stochastic model of bacterial infection associated with neutrophils, 2020, 373, 00963003, 125025, 10.1016/j.amc.2019.125025
    3. Yu Shi, Xiao-Feng Luo, Yong-Xin Zhang, Gui-Quan Sun, Effect of intestinal permeability and phagocytes diffusion rate on pattern structure of Crohn’s disease based on the Turing–Hopf bifurcation, 2024, 0924-090X, 10.1007/s11071-024-09594-9
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  • © 2011 the Author(s), licensee AIMS Press. This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0)
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