Predictive modeling of hepatitis B viral dynamics: a caputo derivative-based approach using artificial neural networks

A fractional model for the kinetics of hepatitis B transmission was developed. The hepatitis B virus significantly affects the world’s economic and health systems. Acute and chronic carrier phases play a crucial part in the spread of the HBV infection. The Hepatitis B infection can be spread by chro...

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Bibliographic Details
Published in:Scientific reports 2024-09, Vol.14 (1), p.21853-25, Article 21853
Main Authors: Turab, Ali, Shafqat, Ramsha, Muhammad, Shah, Shuaib, Mohammad, Khan, Mohammad Faisal, Kamal, Mustafa
Format: Article
Language:English
Subjects:
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639/705
Adams-Bashforth
Chronic infection
Fractional derivative
Health promotion
Hepatitis
Hepatitis B
Hepatitis B - epidemiology
Hepatitis B - transmission
Hepatitis B - virology
Hepatitis B virus
Humanities and Social Sciences
Humans
Infections
Mathematics
Mild solution
Mittag-Leffler
multidisciplinary
Neural networks
Neural Networks, Computer
Numerical simulations
Public health
Qualitative analysis
Science
Science (multidisciplinary)
Vaccination
Viruses
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Summary:A fractional model for the kinetics of hepatitis B transmission was developed. The hepatitis B virus significantly affects the world’s economic and health systems. Acute and chronic carrier phases play a crucial part in the spread of the HBV infection. The Hepatitis B infection can be spread by chronic carriers even though they show no symptoms. In this article, we looked into the Hepatitis B virus’s various stages of infection-related transmission and built a nonlinear epidemic. Then, a fractional hepatitis B virus model using a Caputo derivative and vaccine effects is created. First, we determined the proposed model’s essential reproductive value and equilibria. With the aid of Fixed Point Theory, a qualitative analysis of the problem’s approximative root has been produced. The Adams-Bashforth predictor-corrector scheme is used to aid in the iterative approximate technique’s evaluation of the fractional system under consideration that has the Caputo derivative. In the final section, a graphical representation compares various noninteger orders and displays the discovered scheme findings. In this study, we’ve utilized Artificial Neural Network (ANN) techniques to partition the dataset into three categories: training, testing, and validation. Our analysis delves deep into each category, comprehensively examining the dataset’s characteristics and behaviors within these divisions. The study comprehensively analyzes the fractional HBV transmission model, incorporating both mathematical and computational approaches. The findings contribute to a better understanding of the dynamics of HBV infection and can inform the development of effective public health interventions.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-024-70788-7