Dynamical properties and tumor clearance conditions for a nine-dimensional model of bladder cancer immunotherapy

K. E. Starkov; S. Bunimovich-Mendrazitsky

doi:10.3934/mbe.2016030

Dynamical properties and tumor clearance conditions for a nine-dimensional model of bladder cancer immunotherapy

K. E. Starkov, S. Bunimovich-Mendrazitsky

Centro de Investigación y Desarrollo de Tecnología Digital (CITEDI)

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20 Citas (Scopus)

Resumen

Understanding the global interaction dynamics between tumor and the immune system plays a key role in the advancement of cancer therapy. Bunimovich-Mendrazitsky et al. (2015) developed a mathematical model for the study of the immune system response to combined therapy for bladder can- cer with Bacillus Calmette-Gufferin (BCG) and interleukin-2 (IL-2) . We utilized a mathematical approach for bladder cancer treatment model for derivation of ultimate upper and lower bounds and proving dissipativity property in the sense of Levinson. Furthermore, tumor clearance conditions for BCG treatment of bladder cancer are presented. Our method is based on localization of compact invariant sets and may be exploited for a prediction of the cells populations dynamics involved into the model.

Idioma original	Inglés
Páginas (desde-hasta)	1059-1075
Número de páginas	17
Publicación	Mathematical Biosciences and Engineering
Volumen	13
N.º	5
DOI	https://doi.org/10.3934/mbe.2016030
Estado	Publicada - oct. 2016

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title = "Dynamical properties and tumor clearance conditions for a nine-dimensional model of bladder cancer immunotherapy",

abstract = "Understanding the global interaction dynamics between tumor and the immune system plays a key role in the advancement of cancer therapy. Bunimovich-Mendrazitsky et al. (2015) developed a mathematical model for the study of the immune system response to combined therapy for bladder can- cer with Bacillus Calmette-Gufferin (BCG) and interleukin-2 (IL-2) . We utilized a mathematical approach for bladder cancer treatment model for derivation of ultimate upper and lower bounds and proving dissipativity property in the sense of Levinson. Furthermore, tumor clearance conditions for BCG treatment of bladder cancer are presented. Our method is based on localization of compact invariant sets and may be exploited for a prediction of the cells populations dynamics involved into the model.",

keywords = "BCG, Combined therapy, Compact invariant set, Dynamic modelling, IL-2, Localization, Ultimate dynamics",

author = "Starkov, {K. E.} and S. Bunimovich-Mendrazitsky",

note = "Funding Information: The work of the first author is supported by the CONACYT project N 219614 \An{\'a}lisis de sistemas con din{\'a}mica compleja en las {\'a}reas de medicina matem{\'a}tica y f{\'i}sica utilizando los m{\'e}todos de localizaci{\'o}n de conjuntos compactos invariantes{"}, Mexico.",

year = "2016",

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T1 - Dynamical properties and tumor clearance conditions for a nine-dimensional model of bladder cancer immunotherapy

AU - Starkov, K. E.

AU - Bunimovich-Mendrazitsky, S.

N1 - Funding Information: The work of the first author is supported by the CONACYT project N 219614 \Análisis de sistemas con dinámica compleja en las áreas de medicina matemática y física utilizando los métodos de localización de conjuntos compactos invariantes", Mexico.

PY - 2016/10

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N2 - Understanding the global interaction dynamics between tumor and the immune system plays a key role in the advancement of cancer therapy. Bunimovich-Mendrazitsky et al. (2015) developed a mathematical model for the study of the immune system response to combined therapy for bladder can- cer with Bacillus Calmette-Gufferin (BCG) and interleukin-2 (IL-2) . We utilized a mathematical approach for bladder cancer treatment model for derivation of ultimate upper and lower bounds and proving dissipativity property in the sense of Levinson. Furthermore, tumor clearance conditions for BCG treatment of bladder cancer are presented. Our method is based on localization of compact invariant sets and may be exploited for a prediction of the cells populations dynamics involved into the model.

AB - Understanding the global interaction dynamics between tumor and the immune system plays a key role in the advancement of cancer therapy. Bunimovich-Mendrazitsky et al. (2015) developed a mathematical model for the study of the immune system response to combined therapy for bladder can- cer with Bacillus Calmette-Gufferin (BCG) and interleukin-2 (IL-2) . We utilized a mathematical approach for bladder cancer treatment model for derivation of ultimate upper and lower bounds and proving dissipativity property in the sense of Levinson. Furthermore, tumor clearance conditions for BCG treatment of bladder cancer are presented. Our method is based on localization of compact invariant sets and may be exploited for a prediction of the cells populations dynamics involved into the model.

KW - BCG

KW - Combined therapy

KW - Compact invariant set

KW - Dynamic modelling

KW - IL-2

KW - Localization

KW - Ultimate dynamics

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U2 - 10.3934/mbe.2016030

DO - 10.3934/mbe.2016030

M3 - Artículo

SN - 1547-1063

VL - 13

SP - 1059

EP - 1075

JO - Mathematical Biosciences and Engineering

JF - Mathematical Biosciences and Engineering

IS - 5

ER -

Dynamical properties and tumor clearance conditions for a nine-dimensional model of bladder cancer immunotherapy

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