Selected article for: "epidemic model and infectious period"
Author: Bichara, Derdei Mahamat
Title: Global analysis of multi-host and multi-vector epidemic models
  • Cord-id: mseb6uc6
  • Document date: 2019_7_15
    • ID: mseb6uc6
    Snippet: We formulate a multi-group and multi-vector epidemic model in which hosts' dynamics is captured by staged-progression [Formula: see text] framework and the dynamics of vectors is captured by an SI framework. The proposed model describes the evolution of a class of zoonotic infections where the pathogen is shared by m host species and transmitted by p arthropod vector species. In each host, the infectious period is structured into n stages with a corresponding infectiousness parameter to each vec
    Document: We formulate a multi-group and multi-vector epidemic model in which hosts' dynamics is captured by staged-progression [Formula: see text] framework and the dynamics of vectors is captured by an SI framework. The proposed model describes the evolution of a class of zoonotic infections where the pathogen is shared by m host species and transmitted by p arthropod vector species. In each host, the infectious period is structured into n stages with a corresponding infectiousness parameter to each vector species. We determine the basic reproduction number [Formula: see text] and investigate the dynamics of the systems when this threshold is less or greater than one. We show that the dynamics of the multi-host, multi-stage, and multi-vector system is completely determined by the basic reproduction number and the structure of the host-vector network configuration. Particularly, we prove that the disease-free equilibrium is globally asymptotically stable (GAS) whenever [Formula: see text] , and a unique strongly endemic equilibrium exists and is GAS if [Formula: see text] and the host-vector configuration is irreducible. That is, either the disease dies out or persists in all hosts and all vector species.

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