A Multi-Strain Virus Model with Infected Cell Age Structure: Application to HIV

Abstract

We consider a general mathematical model of a within-host viral infection with n virus strains and explicit age-since-infection structure for infected cells. In the model, multiple virus strains compete for a population of target cells. Cells infected with virus strain i∈\1,...,n\ die at per-capita rate δi(a) and produce virions at per-capita rate pi(a), where δi(a) and pi(a) are functions of the age-since-infection of the cell. Viral strain i has a basic reproduction number, Ri, and a corresponding positive single strain equilibrium, Ei, when Ri>1. If Ri<1, then the total concentration of virus strain i will converge to 0 asymptotically. The main result is that when i Ri>1 and all of the reproduction numbers are distinct, i.e. Ri≠ Rj \ ∀ i≠ j, the viral strain with the maximal basic reproduction number competitively excludes the other strains. As an application of the model, HIV evolution is considered and simulations are provided.