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Mathematical Biosciences and Engineering

2009, Volume 6, Issue 2: 321-332. doi: 10.3934/mbe.2009.6.321
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Epidemic models with differential susceptibility and staged progression and their dynamics

  • 1.
    Theoretical Division, MS-B284, Center for Nonlinear Studies, Los Alamos National Laboratory, Los Alamos, NM 87545
  • 2.
    Department of Mathematical Sciences, University of Alabama in Huntsville, Huntsville, AL 35899
  • Received: 01 December 2007 Accepted: 29 June 2018 Published: 01 March 2009

  • MSC : 34D20, 34D23, 92D30.

  • We formulate and study epidemic models with differential susceptibilities and staged-progressions, based on systems of ordinary differential equations, for disease transmission where the susceptibility of susceptible individuals vary and the infective individuals progress the disease gradually through stages with different infectiousness in each stage. We consider the contact rates to be proportional to the total population or constant such that the infection rates have a bilinear or standard form, respectively. We derive explicit formulas for the reproductive number R0, and show that the infection-free equilibrium is globally asymptotically stable if R0<1 when the infection rate has a bilinear form. We investigate existence of the endemic equilibrium for the two cases and show that there exists a unique endemic equilibrium for the bilinear incidence, and at least one endemic equilibrium for the standard incidence when R0>1.

    Citation: James M. Hyman, Jia Li. Epidemic models with differential susceptibility and stagedprogression and their dynamics[J]. Mathematical Biosciences and Engineering, 2009, 6(2): 321-332. doi: 10.3934/mbe.2009.6.321

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  • We formulate and study epidemic models with differential susceptibilities and staged-progressions, based on systems of ordinary differential equations, for disease transmission where the susceptibility of susceptible individuals vary and the infective individuals progress the disease gradually through stages with different infectiousness in each stage. We consider the contact rates to be proportional to the total population or constant such that the infection rates have a bilinear or standard form, respectively. We derive explicit formulas for the reproductive number R0, and show that the infection-free equilibrium is globally asymptotically stable if R0<1 when the infection rate has a bilinear form. We investigate existence of the endemic equilibrium for the two cases and show that there exists a unique endemic equilibrium for the bilinear incidence, and at least one endemic equilibrium for the standard incidence when R0>1.


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    3. Haitao Song, Shengqiang Liu, Weihua Jiang, Global dynamics of a multistage SIR model with distributed delays and nonlinear incidence rate, 2016, 01704214, 10.1002/mma.4130
    4. M. R. RAZVAN, S. YASAMAN, GLOBAL DYNAMICS OF A DIFFERENTIAL SUSCEPTIBILITY MODEL, 2012, 05, 1793-5245, 1250046, 10.1142/S179352451100188X
    5. Raul Nistal, Manuel de la Sen, Santiago Alonso-Quesada, Asier Ibeas, Aitor J. Garrido, On the Stability and Equilibrium Points of MultistagedSI(n)REpidemic Models, 2015, 2015, 1026-0226, 1, 10.1155/2015/379576
    6. Laid Chahrazed, Stochastic stability and impulsive vaccination of multicompartment nonlinear epidemic model with incidence rate, 2022, 41, 2175-1188, 1, 10.5269/bspm.51981
    7. Luis Sanz-Lorenzo, Rafael Bravo de la Parra, Discrete-time staged progression epidemic models, 2024, 30, 1387-3954, 496, 10.1080/13873954.2024.2356681
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  • © 2009 the Author(s), licensee AIMS Press. This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0)
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