Existence of a Conserved Quantity and Stability of In Vitro Virus Infection Dynamics Models with Absorption Effect

Celia Martínez-Lázaro; Marco Antonio Taneco-Hernández; Ramón Reyes-Carreto; Cruz Vargas-De-León

doi:10.1155/2019/2954041

Existence of a Conserved Quantity and Stability of In Vitro Virus Infection Dynamics Models with Absorption Effect

Celia Martínez-Lázaro, Marco Antonio Taneco-Hernández, Ramón Reyes-Carreto, Cruz Vargas-De-León

Escuela Superior de Medicina (ESM)

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

The estimation of parameters in biomathematical models is useful to characterize quantitatively the dynamics of biological processes. In this paper, we consider some systems of ordinary differential equations (ODEs) modelling the viral dynamics in a cell culture. These models incorporate the loss of viral particles due to the absorption into target cells. We estimated the parameters of models by least-squares minimization between numerical solution of the system and experimental data of cell cultures. We derived a first integral or conserved quantity, and we proved the use of experimental data in order to test the conservation law. The systems have nonhyperbolic equilibrium points, and the conditions for their stability are obtained by using a Lyapunov function. We complemented these theoretical results with some numerical simulations.

Idioma original	Inglés
Número de artículo	2954041
Publicación	Computational and Mathematical Methods in Medicine
Volumen	2019
DOI	https://doi.org/10.1155/2019/2954041
Estado	Publicada - 2019

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title = "Existence of a Conserved Quantity and Stability of In Vitro Virus Infection Dynamics Models with Absorption Effect",

abstract = "The estimation of parameters in biomathematical models is useful to characterize quantitatively the dynamics of biological processes. In this paper, we consider some systems of ordinary differential equations (ODEs) modelling the viral dynamics in a cell culture. These models incorporate the loss of viral particles due to the absorption into target cells. We estimated the parameters of models by least-squares minimization between numerical solution of the system and experimental data of cell cultures. We derived a first integral or conserved quantity, and we proved the use of experimental data in order to test the conservation law. The systems have nonhyperbolic equilibrium points, and the conditions for their stability are obtained by using a Lyapunov function. We complemented these theoretical results with some numerical simulations.",

author = "Celia Mart{\'i}nez-L{\'a}zaro and Taneco-Hern{\'a}ndez, {Marco Antonio} and Ram{\'o}n Reyes-Carreto and Cruz Vargas-De-Le{\'o}n",

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year = "2019",

doi = "10.1155/2019/2954041",

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volume = "2019",

journal = "Computational and Mathematical Methods in Medicine",

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Existence of a Conserved Quantity and Stability of In Vitro Virus Infection Dynamics Models with Absorption Effect. / Martínez-Lázaro, Celia; Taneco-Hernández, Marco Antonio; Reyes-Carreto, Ramón et al.
En: Computational and Mathematical Methods in Medicine, Vol. 2019, 2954041, 2019.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Existence of a Conserved Quantity and Stability of In Vitro Virus Infection Dynamics Models with Absorption Effect

AU - Martínez-Lázaro, Celia

AU - Taneco-Hernández, Marco Antonio

AU - Reyes-Carreto, Ramón

AU - Vargas-De-León, Cruz

PY - 2019

Y1 - 2019

N2 - The estimation of parameters in biomathematical models is useful to characterize quantitatively the dynamics of biological processes. In this paper, we consider some systems of ordinary differential equations (ODEs) modelling the viral dynamics in a cell culture. These models incorporate the loss of viral particles due to the absorption into target cells. We estimated the parameters of models by least-squares minimization between numerical solution of the system and experimental data of cell cultures. We derived a first integral or conserved quantity, and we proved the use of experimental data in order to test the conservation law. The systems have nonhyperbolic equilibrium points, and the conditions for their stability are obtained by using a Lyapunov function. We complemented these theoretical results with some numerical simulations.

AB - The estimation of parameters in biomathematical models is useful to characterize quantitatively the dynamics of biological processes. In this paper, we consider some systems of ordinary differential equations (ODEs) modelling the viral dynamics in a cell culture. These models incorporate the loss of viral particles due to the absorption into target cells. We estimated the parameters of models by least-squares minimization between numerical solution of the system and experimental data of cell cultures. We derived a first integral or conserved quantity, and we proved the use of experimental data in order to test the conservation law. The systems have nonhyperbolic equilibrium points, and the conditions for their stability are obtained by using a Lyapunov function. We complemented these theoretical results with some numerical simulations.

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U2 - 10.1155/2019/2954041

DO - 10.1155/2019/2954041

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C2 - 30944575

SN - 1748-670X

VL - 2019

JO - Computational and Mathematical Methods in Medicine

JF - Computational and Mathematical Methods in Medicine

M1 - 2954041

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Existence of a Conserved Quantity and Stability of In Vitro Virus Infection Dynamics Models with Absorption Effect

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