Mathematical modelling approach of the study of Ebola virus disease transmission dynamics in a developing country
Afr. j. infect. dis. (Online)
; 17(1): 10-26, 2023. figures, tables
Article
in En
| AIM
| ID: biblio-1411563
Responsible library:
CG1.1
ABSTRACT
Background:
Ebola Virus causes disease both in human and non-human primatesespecially in developing countries. In 2014 during its outbreak, it led to majority of deaths especially in some impoverished area of West Africa and its effect is still witnessed up till date. Materials andMethods:
We studied the spread of Ebola virus and obtained a system of equations comprising of eighteen equations which completely described the transmission of Ebola Virus ina population where control measures were incorporated and a major source of contacting the disease which is the traditional washing of dead bodies was also incorporated. We investigated the local stability of the disease-free equilibrium using the Jacobian Matrix approach and the disease-endemic stability using the center manifold theorem. We also investigated the global stability of the equilibrium points using the LaSalle's Invariant principle.Results:
The result showed that the disease-free and endemic equilibrium where both local and globally stable and that the system exhibits a forward bifurcation.Conclusions:
Numerical simulations were carried out and our graphs show that vaccine and condom use is best for susceptible population, quarantine is best for exposed population, isolation is best for infectious population and proper burial of the diseased dead is the best to avoid further disease spread in the population and have quicker and better recovery.Subject(s)
Key words
Full text:
1
Main subject:
Vaccines
/
Disease Transmission, Infectious
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Hemorrhagic Fever, Ebola
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Models, Theoretical
Language:
En
Journal:
Afr. j. infect. dis. (Online)
Year:
2023
type:
Article