MATHEMATICAL ANALYSIS OF THE TRANSMISSION DYNAMICS OF MALARIA IN THE PRESENCE OF MOSQUITO TRAP

Authors

  • Okrinya B. Department of Mathematics, Niger Delta University, Wilberforce Island, Bayelsa State, Nigeria. Author
  • Arrow B Department of Mathematics, Niger Delta University, Wilberforce Island, Bayelsa State, Nigeria. Author
  • Eli I. C. Department of Mathematics and Statistics, Federal University Otuoke, Bayelsa State, Nigeria. Author

DOI:

https://doi.org/10.60787/jnamp-v66-306

Keywords:

Malaria, Analysis, Infectious, Trap, Basic Reproduction Number, Sensitivity

Abstract

Here we model the transmission dynamics of malaria in the presence of mosquito trap. The model based on some relevant assumptions, is a simple system of five ordinary differential equations, devoid of the exposed classes of both human and mosquito populations and including a compartment of trapped mosquitoes. We analyze the system considering its mathematical and biological relevance by considering its positivity, existence and uniqueness conditions. The basic reproduction,  was derived and a simple sensitivity analysis was carried out to determine the most sensitive parameter. The results reveal the ‘Trap effectiveness’ as the most important parameter. We carried out numerical simulations using MATLAB ode45 Routine Solver and both analytical and numerical results affirm the local and global stability of the disease free equilibrium point based on the threshold parameter, showing stability for R0 < 1 and instability for R0 > 1 .

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References

WHO, World Malaria Report, 2020.

WHO, World Malaria report, 2022.

Sandip M., Ram R. S., et al (2011). “Mathematical Models of Malaria –a review”. A malaria journal. https://www.malariajournal.com/content/10/1/202.

Haakenstad, A., Harle, A. C., Tsakalos, G., Micah, A. E., Tao, T., Anjomshoa, M., et al. Tracking spending on malaria by source in 106 countries, 2000-16: An economic modelling study. Lancet Infect Dis. 2019; 19:703-716. Doi: 10.1016/S1473-3099(19)30165-3.

Africa Malaria Report (2003). Pp 17.

WHO, Report on Malaria in Nigeria, 2022.

Dawaki S., Al-Mekhlafi H.M., et al (2016). “Is Nigeria winning the battle against malaria? Prevalence, risk factors and KAP assessment among Hausa communities in Kano State”, Malaria Journal.

Chukwuocha U. M. (2012). “Malaria Control in Nigeria”. Journal of Primary Healthcare: Open Access. Department of Public Health Technology, Federal University of Technology, Owerri, Nigeria.

Okrinya, A. B., Mathematical modelling of Malaria Transmission and Pathogenesis, PhD Thesis, Loughborough University, 2015.

Attiq R., Ran S., et al (2021). “Modeling, Analysis and Numerical Solution to Malaria Model with Temporary Immunity and Relapse”. A springer open journal. https://doi.org/10.1186/s13662-021-03532-4

Okrinya A. B. (2018). “Mathematical Modelling of Kidnapping with Rehabilitation”, Journal of Scientific and Engineering Research. www.jsaer.com. ISSN: 2394-2630. Pp 195-205.

Onuorah, M. O., and Akinwande ,N.I. (2016).Sensitivity Analysis of Lassa Fever Model. European Centre for Research Training and Development UK. (www.eajournals.org).14(1).

Okrinya, A. B., and Timinibife, C. N.. (2022). Global Stability Analysis of a Mathematical Model on the Transmission Dynamics Of Covid-19 With Vaccination” International Journal Of Mathematics And Computer Research 10(11) ISSN : 2320-7167.

Feng, Z., Huang, W., Castillo-Chavez, C. (2001). On the role of variable latent periods in mathematical models for tuberculosis. Journal of dynamics and differential equations, 13, 425-452.

Shah N. H., Gupter J., (2013). “SEIR Model and Simulation for Vector Borne Diseases” http://dx.doi.org/0.4236/am.2013.48A003, Journal of Scientific Research.

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Published

2024-05-27

How to Cite

MATHEMATICAL ANALYSIS OF THE TRANSMISSION DYNAMICS OF MALARIA IN THE PRESENCE OF MOSQUITO TRAP. (2024). The Journals of the Nigerian Association of Mathematical Physics, 66, 15-26. https://doi.org/10.60787/jnamp-v66-306

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