Global asymptotic properties of an SEIRS model with multiple infectious stages

Melesse, Dessalegn Y.; Gumel, Abba B.

doi:10.1016/j.jmaa.2009.12.041

Cited by 47 publications

(35 citation statements)

References 28 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…(19) It is worth mentioning that λ * m like λ * f 1 exists only when R N > 1. Solving for λ * f 2 in g(λ * f 2 ) = 0, the roots of g(λ * f 2 ) = 0 are explored using the Descartes rule of signs.…”

Section: Number Of Sign Changesmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

“…Quite recently some authors [34,19] did analyse some general SIR and SEIRS models with interesting dynamics. The later [19] did analyse SEIRS model incorporating multiple infectious stages. Despite Trichomanas vaginalis being an old infection which is still affecting mankind no mathematical account of it has been carried out to the best knowledge of the authors.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Transmission dynamics of Trichomonas vaginalis: A mathematical approach

Bhunu

Mushayabasa

2011

Journal of Mathematical Analysis and Applications

View full text Add to dashboard Cite

Despite the availability of treatment that is effective, Trichomonas vaginalis infections are still high. A deterministic model for transmission dynamics of Trichomonas vaginalis is presented as a system of non-linear differential equations. Analysis of the reproduction number has shown that an increase in the number of straight women (non-lesbians) infected result in an increase in the number of lesbians infected. This suggests that straight women are turning into lesbians already infected. The disease-free equilibrium is shown to be globally asymptotically stable when the corresponding reproduction number is less than unity. Analytical results and numerical simulations both show that treatment is able to control Trichomonas vaginalis infections. This suggests an effective control of trichomoniasis rests in encouraging and persuading sexual partners of those displaying symptoms to seek treatment. Failure for the asymptomatic to seek treatment (mostly males given that the majority of males does not show symptoms) will continue to fuel the infection.

show abstract

Section: Number Of Sign Changesmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Transmission dynamics of Trichomonas vaginalis: A mathematical approach

Bhunu

Mushayabasa

2011

Journal of Mathematical Analysis and Applications

View full text Add to dashboard Cite

show abstract

“…Further, let R 02 < 1 < R 01 , so that the boundary equilibrium E 1 exists (Theorem 4) and strain-2 dies out (Lemma 3). Consider the following non-linear Lyapunov function, of Goh-Volterra type (functions of this type have been used in the mathematical ecology/epidemiology literature, such as those in [7,22,26,28]):…”

Section: Theorem 4 the Model (1) Has A Unique And Las Strain 1-only Bmentioning

confidence: 99%

Cross-immunity-induced backward bifurcation for a model of transmission dynamics of two strains of influenza

Garba

Safi

Gumel

2013

Nonlinear Analysis: Real World Applications

View full text Add to dashboard Cite

A new deterministic model for the transmission dynamics of two strains of influenza is designed and used to qualitatively assess the role of cross-immunity on the transmission process. It is shown that incomplete cross-immunity could induce the phenomenon of backward bifurcation when the associated reproduction number is less than unity. The model undergoes competitive exclusion (where Strain i drives out Strain j to extinction whenever R 0i > 1 > R 0j ; i, j = 1, 2, i ̸ = j). For the case where infection with one strain confers complete immunity against infection with the other strain, it is shown that the disease-free equilibrium of the model is globally-asymptotically stable whenever the reproduction number is less than unity. In the absence of cross-immunity, the model can have a continuum of co-existence endemic equilibria (which is shown to be globally-asymptotically stable for a special case). When infection with one strain confers incomplete immunity against the other. Numerical simulations of the model show that the two strains co-exist, with Strain i dominating (but not driving out Strain j), whenever R 0i > R 0j > 1.

show abstract

“…We can also cite more recent works. Particularly, the work of Melese and Gumel in [17], where for the proof of the endemic equilibrium stability, authors make a very strong assumption, which is very difficult to verify. We cite also and specially the work of M. Li, J. Graef, L. Wang and J. Karsai in [15], which deals with a similar system, but the authors used one contact rate.…”

Section: Introductionmentioning

confidence: 99%

Global Stability of an Epidemic Model with Two Infected Stages and Mass-Action Incidence

Diouf¹,

Iggidr²,

Sy³

2014

BIOMATH

View full text Add to dashboard Cite

Abstract-The goal of this paper is the establishment of the global asymptotic stability of the model SI with two classes of infected stages and with varying total population size. The incidence used is the mass-action incidence given byS N . Existence and uniqueness of the endemic equilibrium is established when the basic reproduction number is greater than one. A Lyapunov function is used to prove the stability of the disease free equilibrium, and the Poincarré-Bendixson theorem allows to prove the stability of the endemic equilibrium when it exists.

show abstract

Global asymptotic properties of an SEIRS model with multiple infectious stages

Cited by 47 publications

References 28 publications

Transmission dynamics of Trichomonas vaginalis: A mathematical approach

Transmission dynamics of Trichomonas vaginalis: A mathematical approach

Cross-immunity-induced backward bifurcation for a model of transmission dynamics of two strains of influenza

Global Stability of an Epidemic Model with Two Infected Stages and Mass-Action Incidence

Contact Info

Product

Resources

About