Método de la matriz de siguiente generación con el modelo huésped - parasito

Abstract

The aim of this research work was to estimate the basic reproduction number (R0) associated with a deterministic host-parasite model, in order to explore the transmission cycle of the cestode Echinococcus multilocularis, using the Next Generation Matrix Method (NGM). This research work was developed in stages, starting with a qualitative analysis of the differential equations affecting the study phenomenon, then the theory on which the Next Generation Matrix Method is based was described for the corresponding R0 calculation. Then, a quantitative approach was used to calculate the basic reproduction number in a host-parasite epidemiological model, implementing the corresponding algorithm in the Python programming language, in order to simulate different scenarios to obtain this value. The result obtained from this simulation allowed determining that, if R0 is greater than one, the parasite invades the system and an epidemic occurs; while, if it is less than one, the transmission cycle stops and the parasite does not reproduce itself, i.e. the infection will not be spread. In conclusion, this method allows giving a mathematical definition of R0 through the dominant eigenvalue of the NGM, in addition it is used as a starting point to determine when a disease can result in an epidemic. If the basic reproduction number is greater than one, the disease will spread and an epidemic will occur; while, if it is less than one, the disease will disappear in the course of time. It is recommended for future research to deepen on the resistance of the disease, this result will allow determining whether an infectious disease causing an epidemic, turns into a pandemic state.