Узагальнення моделі противірусної імунної відповіді для комплексного урахування дифузійних збурень, температурної реакції організму та логістичної популяційної динаміки антигенів / Барановський С. В., Бомба А. Я., Ляшко С. І. (2022)
Ukrainian

English  Cybernetics and Systems Analysis   /     Issue (2022, 58 (4))

Baranovsky S.V., Bomba A.Y., Lyashko S.I.
Generalization of the antiviral immune response model for complex consideration of diffusion perturbations, body temperature response, and logistic antigens population dynamics

The Marchuk–Petrov mathematical model of antiviral immune response is generalized for complex consideration of diffusion perturbations, concentrated influences, body temperature response, and logistic population dynamics of viral elements and antibodies to the development of infectious disease. A step-by-step procedure for numerically asymptotic solution to the corresponding singularly perturbed problems with delays is developed. The authors present the results of computer simulation that illustrate the “model” reduction of the maximum level of antigens in the epicenter of infection due to their diffusion “scattering,” body temperature response, and logistic population dynamics of viruses on the nature of infectious disease, including the presence of concentrated sources of antigens. It is emphasized that such a systemic effect of these factors can reduce the initial supercritical concentration of antigens to a level after which their neutralization and excretion are provided by the existing level of immune protection, which is important in deciding whether to use external “therapeutic” effects. © 2022, Springer Science+Business Media, LLC, part of Springer Nature.

Keywords: asymptotic methods, concentrated influences, dynamic systems with delay, logistics dynamics, model of antiviral immune response, singularly perturbed problems, Antigens, Concentration (process), Diffusion, Diseases, Dynamics, Immune system, Physiology, Viruses, Antivirals, Asymptotic method, Body temperature, Concentrated influence, Dynamic system with delay, Immune response, Logistic dynamics, Model of antiviral immune response, Singularly perturbed problem, Systems with delays, Population dynamics


Cite:
Baranovsky S.V., Bomba A.Y., Lyashko S.I. (2022). Generalization of the antiviral immune response model for complex consideration of diffusion perturbations, body temperature response, and logistic antigens population dynamics. Cybernetics and Systems Analysis, 58 (4), 94–111. doi: https://doi.org/10.1007/s10559-022-00491-w http://jnas.nbuv.gov.ua/article/UJRN-0001335523 [In Ukrainian].


 

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