[HTML][HTML] A mathematical model for Lassa fever transmission dynamics in a seasonal environment with a view to the 2017–20 epidemic in Nigeria
In this paper, we formulate and study a compartmental model for Lassa fever transmission
dynamics considering human-to-human, rodent-to-human transmission and the vertical …
dynamics considering human-to-human, rodent-to-human transmission and the vertical …
Modeling seasonal malaria transmission: A methodology connecting regional temperatures to mosquito and parasite developmental traits
Increasing temperatures have raised concerns over the potential effect on disease spread.
Temperature is a well known factor affecting mosquito population dynamics and the …
Temperature is a well known factor affecting mosquito population dynamics and the …
The effect of demographic and environmental variability on disease outbreak for a dengue model with a seasonally varying vector population
Seasonal changes in temperature, humidity, and rainfall affect vector survival and
emergence of mosquitoes and thus impact the dynamics of vector-borne disease outbreaks …
emergence of mosquitoes and thus impact the dynamics of vector-borne disease outbreaks …
Impact of weather seasonality and sexual transmission on the spread of Zika fever
We establish a compartmental model to study the transmission of Zika virus disease
including spread through sexual contacts and the role of asymptomatic carriers. To …
including spread through sexual contacts and the role of asymptomatic carriers. To …
Stability and Threshold Dynamics in a Seasonal Mathematical Model for Measles Outbreaks with Double-Dose Vaccination
Measles is a highly contagious viral disease that can lead to serious complications,
including death, particularly in young children. In this study, we developed a mathematical …
including death, particularly in young children. In this study, we developed a mathematical …
Disease emergence in multi-patch stochastic epidemic models with demographic and seasonal variability
Factors such as seasonality and spatial connectivity affect the spread of an infectious
disease. Accounting for these factors in infectious disease models provides useful …
disease. Accounting for these factors in infectious disease models provides useful …
Threshold dynamics in a model for Zika virus disease with seasonality
We present a compartmental population model for the spread of Zika virus disease including
sexual and vectorial transmission as well as asymptomatic carriers. We apply a non …
sexual and vectorial transmission as well as asymptomatic carriers. We apply a non …
A mathematical model for zika virus infection and microcephaly risk considering sexual and vertical transmission
We establish a compartmental model for Zika virus disease transmission, with particular
attention paid to microcephaly, the main threat of the disease. To this end, we consider …
attention paid to microcephaly, the main threat of the disease. To this end, we consider …
Life cycle synchronization is a viral drug resistance mechanism
Viral infections are one of the major causes of death worldwide, with HIV infection alone
resulting in over 1.2 million casualties per year. Antiviral drugs are now being administered …
resulting in over 1.2 million casualties per year. Antiviral drugs are now being administered …
[HTML][HTML] Threshold and stability results in a periodic model for malaria transmission with partial immunity in humans
We develop a periodic compartmental population model for the spread of malaria, dividing
the human population into two classes: non-immune and semi-immune. The effect of …
the human population into two classes: non-immune and semi-immune. The effect of …