Abstract
In this paper, an optimal control problem of a cervical cancer model with vaccination and screening as controls is discussed. This vaccine can stimulate the immune system to produce antibodies that can prevent the occurrence of human papillomavirus (HPV) infections, while screening is used as secondary prevention of early detection of cervical cancer cells so that treatment can begin immediately. The models were divided into two compartments, females and males. The female’s compartment consists of susceptible, vaccinated, infected, screening, cervical cancer, and recovered females. Meanwhile, the male’s compartment consists of susceptible, infected, and recovered males. The purpose of this optimal control was to minimize the number of infected females, infected males, and cervical cancer, as well as to minimize the cost of the controls. Optimal control was obtained by using the Pontryagin principle. Furthermore, an optimal control problem was solved numerically using the Forward-Backward Sweep method to determine the effect of vaccination and screening on the model. The results indicate that vaccination and screening as controls are effective in reducing the subpopulation of HPV infection, which can further reduce the occurrence of cervical cancer.Keywords: cervical cancer, vaccination, screening, optimal controlÂ
Highlights
Cervical cancer is abnormal growth and development of cervix cells and causes some abnormal organ function [1]
Cervical cancer can be prevented by Human Papillomavirus (HPV) vaccinations and screening examinations, such as the Pap smear test or IVA [4]
This study found that every woman could be infected by HPV when the occurrence of HPV infection is high
Summary
Cervical cancer is abnormal growth and development of cervix cells and causes some abnormal organ function [1]. Sado [7] discussed the model of the spread of cervical cancer in the female population by adding the parameters of vaccination Based on these results, the vaccine can reduce and control the transmission of cervical cancer due to HPV infection. This research constructs a mathematical model of cervical cancer by vaccination and screening that modify the model of Malik et al and Saldana et al It was assumed that every susceptible female can have only one type of vaccine. In this model, cervical cancer can occur due to sexual interactions between female and male. Perform numerical simulations using the Sweep Forward and Backward method using MATLAB software
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