Some exact measures to quantify the potential transmission of anepidemic in a stochastic SVIS model with infection reintroduction and imperfect vaccine

Resumen

This communication is oriented to the study of contagious disease dynamics under a Markovianapproach within the area of epidemic modelling.We consider infectious diseases that do not confer permanent immunity in constant size populationswhere individuals are homogeneous and uniformly mixed. Prior the start of the infectious process,a population proportion was vaccinated preventively to a communicable disease with an availablevaccine that fails with a certain probability. This approach involves a stochastic SVIS model withinfection reintroduction and imperfect vaccine. We represent the evolution of the epidemic, at eachtime point t, by the bi-dimensional CTMC, X = {(V (t), I(t)), t 0}, where the random variablesV (t) and I(t) count the number of vaccinated and infected individuals at time t, respectively.The basic reproduction number, R0, is probably the most used descriptor of disease transmission. Due to repeated contacts between the marked infective and previously infected individuals,R0 overestimates the average number of secondary infections and leads to high immunization coverage. Our purpose is to describe alternative measures to R0 to estimate the potential transmissionof an infectious disease. In more detail, we define the exact and population reproduction numbers,Re0 and Rp, under the effect of vaccination. For these measures, we provide theoretical schemesinvolving their mass probability and generating functions and factorial moments. We illustratetheoretical and algorithmic results with several numerical examples.