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Analysis and Simulation of the Three-Component Model of HIV Dynamics

Mathematical modeling of biological systems is crucial to effectively and efficiently developing treatments for medical conditions that plague humanity. Often, systems of ordinary differential equations are a traditional tool used to describe the spread of disease within the body. We consider the dynamics of the Human Immunodeficiency Virus (HIV) in vivo during the initial stage of infection. In particular, we examine the well-known three-component model and prove the existence, uniqueness, and boundedness of solutions. Furthermore, we prove that solutions remain biologically meaningful, i.e., are positivity preserving, and perform a thorough, local stability analysis for the equilibrium states of the system. Finally, we incorporate random coefficients within the model and obtain numerical results to predict the probability of infection given the transmission of the virus to a new individual.

preprint2013arXivOpen access
Eric JonesPeter RoemerMrinal RaghupathiStephen Pankavich
Cell Behaviormath.CAPopulations and Evolution
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Eric JonesPeter RoemerMrinal RaghupathiStephen Pankavich

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