Dynamics of Coinfection: Complexity and Implications

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Dynamics of Coinfection : Complexity and Implications

Ghersheen, Samia, 1985- (författare): Linköpings universitet,Matematik och tillämpad matematik,Tekniska fakulteten

Kozlov, Vladimir, Professor, 1954- (preses): Linköpings universitet,Matematik och tillämpad matematik,Tekniska fakulteten

Wennergren, Uno, Professor, 1957- (preses): Linköpings universitet,Teoretisk Biologi,Tekniska fakulteten

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Tkachev, Vladimir, Associate Professor, 1963- (preses): Linköpings universitet,Matematik och tillämpad matematik,Tekniska fakulteten

Brännström, Åke, Professor (opponent): Department of Mathematics and Mathematical Statistics, Umeå University

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(creator_code:org_t)

ISBN 9789175190167
Linköping : Linköping University Electronic Press, 2019
Engelska 30 s.
Serie: Linköping Studies in Science and Technology. Dissertations, 0345-7524 ; 2011

Relaterad länk:: https://doi.org/10.3...; visa fler...; https://liu.diva-por... (primary) (Raw object); https://liu.diva-por... (Preview); http://liu.diva-port...; https://urn.kb.se/re...; https://doi.org/10.3...; visa färre...

Doktorsavhandling (övrigt vetenskapligt/konstnärligt)

Abstract Ämnesord

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Living beings are always on risk from multiple infectious agents in individual or in groups. Though multiple pathogens' interactions have widely been studied in epidemiology. Despite being well known, the co-existence of these pathogens and their coinfection remained a mystery to be uncovered. Coinfection is one of the important and interesting phenomenon in multiple interactions when two infectious agents coexist at a time in a host. The aim of this thesis is to understand the complete dynamics of coinfection and the role of different factors affecting these interactions.Mathematical modelling is one of the tools to study the coinfection dynamics. Each model has its own limitations and choice of the model depends on the questions to be addressed. There is always a crosstalk between the choice of model and limitation of their solvability. The complexity of the problem defines the restriction in analytical possibilities.In this thesis we formulate and analyse the mathematical models of coinfection with different level of complexities. Since viral infections are a major class of infectious diseases, in the first three papers we formulated a susceptible, infected, recovered (SIR) model for coinfection of the two viral strains in a single host population introducing carrying capacity as limited growth factor in susceptible class. In the first study, we made some assumptions for the transmission of coinfection in the model. In the following papers, the analysis is expanded by relaxing these assumptions which has generated the complexity in dynamics. We showed that the dynamics of stable equilibrium points depends on the fundamental parameters including carrying capacity K. A parameter dependent transition dynamics exists starting from disease free state to a level where coinfection can persists only with susceptible class. A disease-free equilibrium point is stable only when K is small. With increase in carrying capacity to a level where only single infection can invade and persists. Further increase in carrying capacity becomes large enough for the existence and persistence of coinfection due to the high density of susceptible class. In paper I, we proved the existence of a globally stable equilibrium point for any set of parameter values, revealing persistence of disease in a population. This shows a close relationship between the intensity of infection and carrying capacity as a crucial parameter of the population. So there is always a positive correlation between risk of infection and carrying capacity which leads to destabilization of the population.In paper IV, we formulated mathematical models using different assumptions and multiple level of complexities to capture the effect of additional phenomena such as partial cross immunity, density dependence in each class and a role of recovered population in the dynamics. We found the basic reproduction number for each model which is the threshold that describes the invasion of disease in population. The basic reproduction number in each model shows that the persistence of disease or strains depends on the carrying capacity K. In the first model of this paper, we have also shown the local stability analysis of the boundary equilibrium points and showed that the recovered population is not uniformly bounded with respect to K.Paper V uses simulations to analyse the dynamics and specifically studies how temporal variation in the carrying capacity of the population affects its dynamics. The degree of autocorrelation in variability of carrying capacity influences whether the different classes exhibit temporal variation or not. The fact that the different classes respond differently to the variation depends in itself on whether their equilibrium densities show a dependence on the carrying capacity or not. An important result is that at high autocorrelation, the healthy part of the population is not affected by the external variation and at the same time the infected part of the population exhibits high variation. A transition to lower autocorrelation, more randomness, means that the healthy population varies over time and the size of the infected population decreases in variation.

Ämnesord

NATURVETENSKAP -- Matematik -- Matematisk analys (hsv//swe)
NATURAL SCIENCES -- Mathematics -- Mathematical Analysis (hsv//eng)

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Av författaren/redakt...: Ghersheen, Samia ...; Kozlov, Vladimir ...; Wennergren, Uno, ...; Tkachev, Vladimi ...; Brännström, Åke, ...

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Av lärosätet: Linköpings universitet

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