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Bifurcation analysis of a two infection SIR-SIR epidemic model with temporary immunity and disease enhancement

Maíra Aguiar, Vanessa Steindorf, Ajai K. Srivastav, Nico Stollenwerk, Bob W. Kooi

2024Nonlinear Dynamics12 citationsDOIOpen Access PDF

Abstract

Abstract In this paper we study a two infection SIR-SIR compartmental model, considering biological features described in dengue fever epidemiology. Due to a progressive loss of protective antibodies there is waning immunity in the first infection stage and disease enhancement or protection effects by the second infection stage. Bifurcation analysis reveals two codim-2 bifurcations as organizing centers. The unfolding of a cusp bifurcation describes the transition of the disease-free equilibrium into an endemic equilibrium by varying a parameter. These equilibria allow an analytical solution with explicit expressions which allow for a full geometrical interpretation of the occurring bifurcations related to stationary dynamics. A Bogdanov-Takens point is the starting point in the parameter space where oscillatory endemic dynamics occurs including a homoclinic connection. These findings bring additional insights on biological mechanisms able to generate rich and complicated dynamical behavior in simple epidemic models that are, so far, largely unexplored.

Topics & Concepts

Epidemic modelDiseaseBifurcationImmunityVirologyMathematicsMedicineApplied mathematicsImmunologyImmune systemPhysicsInternal medicineEnvironmental healthNonlinear systemPopulationQuantum mechanicsMathematical and Theoretical Epidemiology and Ecology ModelsCOVID-19 epidemiological studiesViral Infections and Vectors
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