Optimal control in epidemiology
Mathematical modelling of infectious diseases has shown that combinations of isolation,
quarantine, vaccine and treatment are often necessary in order to eliminate most infectious …
quarantine, vaccine and treatment are often necessary in order to eliminate most infectious …
[HTML][HTML] Optimal control and comprehensive cost-effectiveness analysis for COVID-19
Cost-effectiveness analysis is a mode of determining both the cost and economic health
outcomes of one or more control interventions. In this work, we have formulated a non …
outcomes of one or more control interventions. In this work, we have formulated a non …
Sensitivity assessment and optimal economic evaluation of a new COVID-19 compartmental epidemic model with control interventions
Optimal economic evaluation is pivotal in prioritising the implementation of non-
pharmaceutical and pharmaceutical interventions in the control of diseases. Governments …
pharmaceutical and pharmaceutical interventions in the control of diseases. Governments …
Population-level mathematical modeling of antimicrobial resistance: a systematic review
AM Niewiadomska, B Jayabalasingham, JC Seidman… - BMC medicine, 2019 - Springer
Background Mathematical transmission models are increasingly used to guide public health
interventions for infectious diseases, particularly in the context of emerging pathogens; …
interventions for infectious diseases, particularly in the context of emerging pathogens; …
A fractional order HIV‐TB coinfection model with nonsingular Mittag‐Leffler Law
H Khan, JF Gómez‐Aguilar… - … Methods in the …, 2020 - Wiley Online Library
The biological models for the study of human immunodeficiency virus (HIV) and its
advanced stage acquired immune deficiency syndrome (AIDS) have been widely studied in …
advanced stage acquired immune deficiency syndrome (AIDS) have been widely studied in …
Impact of saturated treatments on HIV-TB dual epidemic as a consequence of COVID-19: optimal control with awareness and treatment
In this study, we propose an HIV-TB co-infection model by considering the treatment
provision limitation induced by recent COVID-19 pandemic that impacts this dual epidemic …
provision limitation induced by recent COVID-19 pandemic that impacts this dual epidemic …
COVID-19 pandemic control: balancing detection policy and lockdown intervention under ICU sustainability
An extended SIR model, including several features of the recent COVID-19 outbreak, is
considered: the infected and recovered individuals can either be detected or undetected and …
considered: the infected and recovered individuals can either be detected or undetected and …
[HTML][HTML] A comprehensive cost-effectiveness analysis of control of maize streak virus disease with Holling's Type II predation form and standard incidence
Maize streak virus disease, caused by the maize streak virus, has been identified as severe
vector-borne disease in Africa. In most regions of the continent, the disease is generally …
vector-borne disease in Africa. In most regions of the continent, the disease is generally …
[HTML][HTML] Analysis of a co-infection model for HPV-TB
A Omame, D Okuonghae, RA Umana… - Applied Mathematical …, 2020 - Elsevier
A two-sex, co-infection model for the transmission dynamics of Human papillomavirus (HPV)
and Tuberculosis (TB) in a population is developed and analyzed to gain insight into the …
and Tuberculosis (TB) in a population is developed and analyzed to gain insight into the …
Analysis of an age-structured tuberculosis model with treatment and relapse
ZK Guo, H Xiang, HF Huo - Journal of Mathematical Biology, 2021 - Springer
A new tuberculosis model consisting of ordinary differential equations and partial differential
equations is established in this paper. The model includes latent age (ie, the time elapsed …
equations is established in this paper. The model includes latent age (ie, the time elapsed …