Comparison of perron and floquet eigenvalues in age structured cell division cycle models

J. Clairambault; S. Gaubert; Th Lepoutre

doi:10.1051/mmnp/20094308

Comparison of perron and floquet eigenvalues in age structured cell division cycle models

J. Clairambault
, S. Gaubert
, Th Lepoutre

INRIA Institut National de Recherche en Informatique et en Automatique
Hôpital Paul-Brousse
INRIA
Sorbonne Université

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

Abstract

We study the growth rate of a cell population that follows an age-structured PDE with time-periodic coefficients. Our motivation comes from the comparison between experimental tumor growth curves in mice endowed with intact or disrupted circadian clocks, known to exert their influence on the cell division cycle. We compare the growth rate of the model controlled by a time-periodic control on its coefficients with the growth rate of stationary models of the same nature, but with averaged coefficients. We firstly derive a delay differential equation which allows us to prove several inequalities and equalities on the growth rates. We also discuss about the necessity to take into account the structure of the cell division cycle for chronotherapy modeling. Numerical simulations illustrate the results.

Original language	English
Pages (from-to)	183-209
Number of pages	27
Journal	Mathematical Modelling of Natural Phenomena
Volume	4
Issue number	3
DOIs	https://doi.org/10.1051/mmnp/20094308
Publication status	Published - 1 Jan 2009

Keywords

cell cycle
chronotherapy
circadian rhythms
delay differential equations
structured pdes

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abstract = "We study the growth rate of a cell population that follows an age-structured PDE with time-periodic coefficients. Our motivation comes from the comparison between experimental tumor growth curves in mice endowed with intact or disrupted circadian clocks, known to exert their influence on the cell division cycle. We compare the growth rate of the model controlled by a time-periodic control on its coefficients with the growth rate of stationary models of the same nature, but with averaged coefficients. We firstly derive a delay differential equation which allows us to prove several inequalities and equalities on the growth rates. We also discuss about the necessity to take into account the structure of the cell division cycle for chronotherapy modeling. Numerical simulations illustrate the results.",

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N2 - We study the growth rate of a cell population that follows an age-structured PDE with time-periodic coefficients. Our motivation comes from the comparison between experimental tumor growth curves in mice endowed with intact or disrupted circadian clocks, known to exert their influence on the cell division cycle. We compare the growth rate of the model controlled by a time-periodic control on its coefficients with the growth rate of stationary models of the same nature, but with averaged coefficients. We firstly derive a delay differential equation which allows us to prove several inequalities and equalities on the growth rates. We also discuss about the necessity to take into account the structure of the cell division cycle for chronotherapy modeling. Numerical simulations illustrate the results.

AB - We study the growth rate of a cell population that follows an age-structured PDE with time-periodic coefficients. Our motivation comes from the comparison between experimental tumor growth curves in mice endowed with intact or disrupted circadian clocks, known to exert their influence on the cell division cycle. We compare the growth rate of the model controlled by a time-periodic control on its coefficients with the growth rate of stationary models of the same nature, but with averaged coefficients. We firstly derive a delay differential equation which allows us to prove several inequalities and equalities on the growth rates. We also discuss about the necessity to take into account the structure of the cell division cycle for chronotherapy modeling. Numerical simulations illustrate the results.

KW - cell cycle

KW - chronotherapy

KW - circadian rhythms

KW - delay differential equations

KW - structured pdes

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DO - 10.1051/mmnp/20094308

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SN - 0973-5348

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EP - 209

JO - Mathematical Modelling of Natural Phenomena

JF - Mathematical Modelling of Natural Phenomena

IS - 3

ER -

Comparison of perron and floquet eigenvalues in age structured cell division cycle models

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Keywords

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