Determining parameters of the mathematical model of the immune response to HIV infection Full article
| Journal |
Journal of Mathematical Sciences (United States)
ISSN: 1072-3374 , E-ISSN: 1573-8795 |
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| Output data | Year: 2025, Volume: 293, Number: 4, Pages: 587-600 Pages count : 14 DOI: 10.1007/s10958-025-08027-1 | ||||
| Tags | human immunodeficiency virus, HIV, immune response, system of differential equations, inverse problem of parameter identification, method of evolutionary centers | ||||
| Authors |
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| Affiliations |
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Funding (3)
| 1 |
Министерство науки и высшего образования РФ Mathematical Center in Akademgorodok |
075-15-2019-1613, 075-15-2022-281 |
| 2 | Sobolev Institute of Mathematics | FWNF-2024-0001 |
| 3 | Russian Science Foundation | 23-11-00116 |
Abstract:
The human immunodeficiency virus (HIV) of type 1 hits the immune system and weakens
the defense against other infections and some types of cancer that could be suppressed by the immune
system of a healthy person. Using highly active antiretroviral therapy (HAART) still cannot completely
eliminate HIV from the body of an infected person. However, due to wide access to the means of HIV
prevention, diagnosis and treatment with HAART, HIV infection became one of controllable chronic
diseases. Methods of mathematical modeling are actively used to study the kinetic mechanisms of HIV
pathogenesis and to develop personalized approaches to treatment based on combined immunotherapy.
One of the central problems of HIV infection modeling is to determine the individual parameters of
the immune system response during the acute phase of HIV infection by solving inverse problems.
In this paper, we use a mathematical model of eight ordinary differential equations formulated by
Bank et al. [2] to study the kinetics of the pathogenesis of HIV infection. This system of equations
describes the change of size of four subpopulations of CD4+ T cells and two types of CD8+ T cells.
This model considers latently infected CD4+ T cells, which serve as the main reservoir of the viral
population. The viral load on the human body is determined by the combination of populations of
infectious and noninfectious viral particles.
We study the inverse problem of identification of parameters based on the data of the acute phase of
HIV infection. In particular, we analyse the identifiability of the parameters and their sensitivity from
the input data. We reduce the inverse problem to the minimization problem using the evolutionary
centers method.
Cite:
Surnin P.S.
, Shishlenin M.A.
, Bocharov G.A.
Determining parameters of the mathematical model of the immune response to HIV infection
Journal of Mathematical Sciences (United States). 2025. V.293. N4. P.587-600. DOI: 10.1007/s10958-025-08027-1 Scopus OpenAlex
Determining parameters of the mathematical model of the immune response to HIV infection
Journal of Mathematical Sciences (United States). 2025. V.293. N4. P.587-600. DOI: 10.1007/s10958-025-08027-1 Scopus OpenAlex
Original:
Сурнин П.С.
, Шишленин М.А.
, Бочаров Г.А.
Определение параметров математической модели иммунного ответа на ВИЧ
Современная математика. Фундаментальные направления. 2025. Т.71. №1. С.159-175. DOI: 10.22363/2413-3639-2025-71-1-159-175 РИНЦ OpenAlex
Определение параметров математической модели иммунного ответа на ВИЧ
Современная математика. Фундаментальные направления. 2025. Т.71. №1. С.159-175. DOI: 10.22363/2413-3639-2025-71-1-159-175 РИНЦ OpenAlex
Dates:
| Published print: | Nov 3, 2025 |
| Published online: | Nov 3, 2025 |
Identifiers:
| Scopus: | 2-s2.0-105020731984 |
| OpenAlex: | W4415779018 |
Citing:
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