A generalized within-host model of dengue infection with a non-constant monocyte production rate

Jeremy J. Thibodeaux; Daniel Elías Nuñez Lopez; Andrés  Rivera

doi:10.1080/17513758.2020.1733678

A generalized within-host model of dengue infection with a non-constant monocyte production rate

Loyola University New Orleans

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Abstract

In this paper, we generalize a previous model of within-host dengue infection with a nonconstant monocyte production rate. We establish the existence of three equilibria and give some local stability results. We then estimate three parameters in the model from clinical data for dengue virus serotype 2. It is then shown that the model can exhibit behaviours that are not possible under the assumption of constant monocyte production. Lastly, we perform a sensitivity analysis of the model in two contexts, antiviral treatment and immunostimulatory treatment. The results predict that antiviral treatments that reduce the viral replication rate in infected monocytes are the most effective, while immunostimulatory treatments that increase the rate at which infected monocytes are removed are best.

Translated title of the contribution	Un modelo generalizado de infección por dengue con una tasa de producción de monocitos no constante
Original language	English
Pages (from-to)	143-161
Number of pages	19
Journal	Journal of Biological Dynamics
Volume	14
Issue number	1
DOIs	https://doi.org/10.1080/17513758.2020.1733678 https://doi.org/10.1080/17513758.2020.1733678
State	Published - 01 Jan 2020

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title = "A generalized within-host model of dengue infection with a non-constant monocyte production rate",

abstract = "In this paper, we generalize a previous model of within-host dengue infection with a nonconstant monocyte production rate. We establish the existence of three equilibria and give some local stability results. We then estimate three parameters in the model from clinical data for dengue virus serotype 2. It is then shown that the model can exhibit behaviours that are not possible under the assumption of constant monocyte production. Lastly, we perform a sensitivity analysis of the model in two contexts, antiviral treatment and immunostimulatory treatment. The results predict that antiviral treatments that reduce the viral replication rate in infected monocytes are the most effective, while immunostimulatory treatments that increase the rate at which infected monocytes are removed are best.",

keywords = "Dengue, within-host model, reproductive rate, Clinical Data",

author = "Thibodeaux, \{Jeremy J.\} and \{Nu{\~n}ez Lopez\}, \{Daniel El{\'i}as\} and Andr{\'e}s Rivera",

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AU - Nuñez Lopez, Daniel Elías

AU - Rivera, Andrés

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AB - In this paper, we generalize a previous model of within-host dengue infection with a nonconstant monocyte production rate. We establish the existence of three equilibria and give some local stability results. We then estimate three parameters in the model from clinical data for dengue virus serotype 2. It is then shown that the model can exhibit behaviours that are not possible under the assumption of constant monocyte production. Lastly, we perform a sensitivity analysis of the model in two contexts, antiviral treatment and immunostimulatory treatment. The results predict that antiviral treatments that reduce the viral replication rate in infected monocytes are the most effective, while immunostimulatory treatments that increase the rate at which infected monocytes are removed are best.

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KW - reproductive rate

KW - Clinical Data

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A generalized within-host model of dengue infection with a non-constant monocyte production rate

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