Dual-strain dynamics of COVID-19 variants in India: Modeling, analysis, and implications for pandemic control

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Abstract

This study introduces a detailed compartmental model developed to understand the complex dynamics of COVID-19 transmission, focusing on the Delta and Omicron variants in India. The model tracks disease progression through different population compartments, considering factors like vaccination, time-dependent transmission, economic burden and COVID-19 death rates, loss of vaccine-induced immunity, and the transition of asymptomatic cases to recovery. The model is validated against established epidemiological knowledge and real-world data, emphasizing dynamic parameterization and accurate representation of immunity dynamics. The basic reproduction number for both variants is calculated, and sensitivity analysis for various parameters is conducted. Time-dependent parameters are estimated using the discrete inverse method. The study also explores the economic burden, impact of different types of masks, vaccine efficacy, and vaccine-induced immunity through numerical analysis.

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Singh Negi, S., Sharma, N., & Mehmet Baskonus, H. (2024). Dual-strain dynamics of COVID-19 variants in India: Modeling, analysis, and implications for pandemic control. Gene, 926. https://doi.org/10.1016/j.gene.2024.148586

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