Stability of an adaptive immunity pathogen dynamics model with latency and multiple delays

Stability of an adaptive immunity pathogen dynamics model with latency and multiple delays

We incorporate three distributed time delays into the model of pathogen dynamics with antibody and Cytotoxic T Lymphocyte (CTL) immune responses. We consider both actively and latently infected cells. The pathogen‐target incidence rate, production/proliferation, and removal rates of the cells and pa...

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Veröffentlicht in:Mathematical methods in the applied sciences 2018-11, Vol.41 (16), p.6645-6672
Hauptverfasser: Elaiw, Ahmed M., AlShamrani, Noura H.
Format: Artikel
Sprache:eng
Schlagworte:
adaptive immune response
Computer simulation
Dynamic stability
Functionals
global stability
Immunity
intracellular delay
Lyapunov function
Mathematical models
pathogen infection
Pathogens
Steady state
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Zusammenfassung:We incorporate three distributed time delays into the model of pathogen dynamics with antibody and Cytotoxic T Lymphocyte (CTL) immune responses. We consider both actively and latently infected cells. The pathogen‐target incidence rate, production/proliferation, and removal rates of the cells and pathogens are represented by general nonlinear functions. We show that the solutions of the proposed model are nonnegative and ultimately bounded. We derive four threshold parameters that fully determine the existence and stability of the five steady states of the model. Using Lyapunov functionals, we established the global stability of the steady states of the model. The theoretical results are confirmed by numerical simulations.
ISSN:0170-4214
1099-1476
DOI:10.1002/mma.5182