Mathematical model of Ehrlichia chaffeensis transmission dynamics in dogs

Abstract

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Ehrlichia chaffeensis is a tick-borne disease transmitted by ticks to dogs. Few studies have mathematical modelled such tick-borne disease in dogs, and none have developed models that incorporate different ticks' developmental stages (discrete variable) as well as the duration of infection (continuous variable). In this study, we develop and analyze a model that considers these two structural variables using integrated semigroups theory. We address the well-posedness of the model and investigate the existence of steady states. The model exhibits a disease-free equilibrium and an endemic equilibrium. We calculate the reproduction number ([Formula: see text]). We establish a necessary and sufficient condition for the bifurcation of an endemic equilibrium. Specifically, we demonstrate that a bifurcation, either backward or forward, can occur at [Formula: see text], leading to the existence, or not, of an endemic equilibrium even when [Formula: see text]. Finally, numerical simulations are employed to illustrate these theoretical findings.

Keywords

• Amblyomma americanum
• Ehrlichia chaffeensis
• age-structured model
• bifurcation analysis
• 92-10
• 92D30