Modelling coupled within host and population dynamics of [Formula: see text] and [Formula: see text] HIV infection.
Identifieur interne : 000526 ( Main/Exploration ); précédent : 000525; suivant : 000527Modelling coupled within host and population dynamics of [Formula: see text] and [Formula: see text] HIV infection.
Auteurs : Edna Chilenje Manda [Afrique du Sud] ; Faraimunashe Chirove [Afrique du Sud]Source :
- Journal of mathematical biology [ 1432-1416 ] ; 2017.
Abstract
Most existing models have considered the immunological processes occurring within the host and the epidemiological processes occurring at population level as decoupled systems. We present a new model using continuous systems of non linear ordinary differential equations by directly linking the within host dynamics capturing the interactions between Langerhans cells, CD4[Formula: see text] T-cells, R5 HIV and X4 HIV and the without host dynamics of a basic compartmental HIV/AIDS model. The model captures the biological theories of the cells that take part in HIV transmission. The study incorporates in its analysis the differences in time scales of the fast within host dynamics and the slow without host dynamics. In the mathematical analysis, important thresholds, the reproduction numbers, were computed which are useful in predicting the progression of the infection both within the host and without the host. The study results showed that the model exhibits four within host equilibrium points inclusive of three endemic equilibria whose effects translate into different scenarios at the population level. All the endemic equilibria were shown to be globally stable using Lyapunov functions and this is an important result in linking the within host dynamics to the population dynamics, because the disease free equilibrium point ceases to exist. The effects of linking were observed on the endemic equilibrium points of both the within host and population dynamics. Linking the two dynamics was shown to increase in the viral load within the host and increase in the epidemic levels in the population dynamics.
DOI: 10.1007/s00285-017-1170-1
PubMed: 28762130
Affiliations:
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We present a new model using continuous systems of non linear ordinary differential equations by directly linking the within host dynamics capturing the interactions between Langerhans cells, CD4[Formula: see text] T-cells, R5 HIV and X4 HIV and the without host dynamics of a basic compartmental HIV/AIDS model. The model captures the biological theories of the cells that take part in HIV transmission. The study incorporates in its analysis the differences in time scales of the fast within host dynamics and the slow without host dynamics. In the mathematical analysis, important thresholds, the reproduction numbers, were computed which are useful in predicting the progression of the infection both within the host and without the host. The study results showed that the model exhibits four within host equilibrium points inclusive of three endemic equilibria whose effects translate into different scenarios at the population level. All the endemic equilibria were shown to be globally stable using Lyapunov functions and this is an important result in linking the within host dynamics to the population dynamics, because the disease free equilibrium point ceases to exist. The effects of linking were observed on the endemic equilibrium points of both the within host and population dynamics. Linking the two dynamics was shown to increase in the viral load within the host and increase in the epidemic levels in the population dynamics.</div></front></TEI><affiliations><list><country><li>Afrique du Sud</li></country></list><tree><country name="Afrique du Sud"><noRegion><name sortKey="Manda, Edna Chilenje" sort="Manda, Edna Chilenje" uniqKey="Manda E" first="Edna Chilenje" last="Manda">Edna Chilenje Manda</name></noRegion><name sortKey="Chirove, Faraimunashe" sort="Chirove, Faraimunashe" uniqKey="Chirove F" first="Faraimunashe" last="Chirove">Faraimunashe Chirove</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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