Mathematical Modelling Of Causes And Control Of Malaria
Complete Mathematical Modelling Of Causes And Control Of Malaria Project Materials (Chapters 1 to 5):
Malaria, an infectious disease caused by the Plasmodium parasite, is transmitted between humans through the bites of female Anopheles mosquitoes. To understand and manage this disease, mathematical modeling describes the dynamics of malaria transmission and the interactions between human and mosquito populations using mathematical equations. These equations detail the relationships between different variables within the compartments of the model. The study aims to identify key parameters influencing the transmission and spread of endemic malaria and to develop effective prevention and control strategies through mathematical analysis. The malaria model employs fundamental mathematical techniques, resulting in a system of ordinary differential equations (ODEs) with four variables for humans and three for mosquitoes. Qualitative analysis of the model includes dimensional analysis, scaling, perturbation techniques, and stability theory for ODE systems. The model’s equilibrium points are derived and analyzed for stability, revealing that the endemic state has a unique equilibrium where the disease persists, and re-invasion remains possible. Simulations demonstrate the temporal behavior of the populations and the stability of both disease-free and endemic equilibrium states. Numerical simulations suggest that combining insecticide-treated bed nets, indoor residual spraying, and chemotherapy is the most effective approach for controlling or eradicating malaria. However, reducing the biting rate of female Anopheles mosquitoes through the use of insecticide-treated bed nets and indoor residual spraying proves to be the most crucial strategy, especially as some antimalarial drugs face resistance.
Title page
Certification
Dedication
Acknowledgement
Abstract
Table of contents
CHAPTER ONE
INTRODUCTION
1.1 Background Of The Study
1.2 Aims and Objectives
CHAPTER TWO
LITERATURE RIVEW
2.0 Introduction
2.1 Introduction of Exposed Class In Mosquito Population
2.2 Age And Exposed Class In Human Population
2.3 Migration And Visitation
2.4 Social And Economic Factors
2.5 Varying Popolation Size
2.6 Other Immunity Models
2.7 Host-Pathogen Variability And Resistant Strain Models
2.8 Environmental Factors
2.9 The Effect Of Sickle- Cell Gene On Malaria
2.10 Malaria Control
2.11 Vector Control and Protection Against Mosquito Bites
2.12 Case Management
2.13 Prophylatic Drugs
2.14 Vaccination
2.15 Stochastic Models
2.16 Conclusion
CHAPTER THREE
3.1 Formulation Of The Model
3.2 Analysis Of The Model
3.3 Equations Of The Model
3.4 Existence Of Equilibrium Points Without Disease
3.5 The Endemic Equilibrium Point
CHAPTER FOUR
4.0 Analysis
4.1 Estimation Of Parameters
4.2 Population Data For Mosquitoes
4.3 Equations Of The Model
4.4 Disease-Free Equilibrium Points
4.5 The Endemic Equilibrium Point
CHAPTER FIVE
5.1 Summary And Conclusion
REFERENCES
The introduction of Mathematical Modelling Of Causes And Control Of Malaria should start with the relevant background information of the study, clearly define the specific problem that it addresses, outline the main object, discuss the scope and any limitation that may affect the outcome of your findings
Literature Review of Mathematical Modelling Of Causes And Control Of Malaria should start with an overview of existing research, theoretical framework and identify any gaps in the existing literature and explain how it will address the gaps
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Results should include presentation of findings and interpretation of results
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