A susceptible-infectious-susceptible (SIS) epidemic model that describes the coinfection and cotransmission of two infectious diseases spreading through a single population is studied. The host population consists of two subclasses: susceptible and infectious, and the infectious individuals are further divided into three subgroups: those infected by the first agent/pathogen, the second agent/pathogen, and both. The basic reproduction numbers for all cases are derived which completely determine the global stability of the system if the presence of one agent/pathogen does not affect the transmission of the other. When the constraint on the transmissibility of the dually infected hosts is removed, we introduce the invasion reproduction number,...
Models for the transmission of an infectious disease in one and two host populations with and withou...
We consider nested or multiscale models to study the effect of the temporal evolution of the disease...
In this paper we consider models of two competing species that are both affected by a pathogen which...
Living beings are always on risk from multiple infectious agents in individual or in groups. Though ...
In the real world, pathogens do not exist in isolation. The transmission of one pathogen may be affe...
Multiple viruses are widely studied because of their negative effect on the health of host as well a...
As both ticks and hosts may carry one or more pathogens, the phenomenon of coinfection of multiple t...
In this paper, we formulate a model for evaluating the effects of an opportunistic disease affecting...
23 pages, 8 fig. ; 9 pages, 7 fig.A general theory for competitive dynamics among many strains at th...
Modeling epidemic dynamics plays an important role in studying how diseases spread, predicting their...
Current modeling of infectious diseases allows for the study of complex and realistic scenarios that...
A basic simple SIS epidemic model is proposed and analyzed. The population is infected by a transmis...
Traditional biomedical approaches treat diseases in isolation, but the importance of synergistic dis...
The spread of certain diseases can be promoted, in some cases substantially, by prior infection with...
The spread of certain diseases can be promoted, in some cases substantially, by prior infection with...
Models for the transmission of an infectious disease in one and two host populations with and withou...
We consider nested or multiscale models to study the effect of the temporal evolution of the disease...
In this paper we consider models of two competing species that are both affected by a pathogen which...
Living beings are always on risk from multiple infectious agents in individual or in groups. Though ...
In the real world, pathogens do not exist in isolation. The transmission of one pathogen may be affe...
Multiple viruses are widely studied because of their negative effect on the health of host as well a...
As both ticks and hosts may carry one or more pathogens, the phenomenon of coinfection of multiple t...
In this paper, we formulate a model for evaluating the effects of an opportunistic disease affecting...
23 pages, 8 fig. ; 9 pages, 7 fig.A general theory for competitive dynamics among many strains at th...
Modeling epidemic dynamics plays an important role in studying how diseases spread, predicting their...
Current modeling of infectious diseases allows for the study of complex and realistic scenarios that...
A basic simple SIS epidemic model is proposed and analyzed. The population is infected by a transmis...
Traditional biomedical approaches treat diseases in isolation, but the importance of synergistic dis...
The spread of certain diseases can be promoted, in some cases substantially, by prior infection with...
The spread of certain diseases can be promoted, in some cases substantially, by prior infection with...
Models for the transmission of an infectious disease in one and two host populations with and withou...
We consider nested or multiscale models to study the effect of the temporal evolution of the disease...
In this paper we consider models of two competing species that are both affected by a pathogen which...