Sensitivity of endemic behaviour of COVID-19 under a multi-dose vaccination regime, to various biological parameters and control variables
Sensitivity of endemic behaviour of COVID-19 under a multi-dose vaccination regime, to various biological parameters and control variables
For an infectious disease such as COVID-19, we present a new four-stage vaccination model (unvaccinated, dose 1 + 2, booster, repeated boosters), which examines the impact of vaccination coverage, vaccination rate, generation interval, control reproduction number, vaccine efficacies and rates of waning immunity upon the dynamics of infection. We derive a single equation that allows computation of equilibrium prevalence and incidence of infection, given knowledge about these parameters and variable values. Based upon a 20-compartment model, we develop a numerical simulation of the associated differential equations. The model is not a forecasting or even predictive one, given the uncertainty about several biological parameter values. Rather, it is intended to aid a qualitative understanding of how equilibrium levels of infection may be impacted upon, by the parameters of the system. We examine one-at-a-time sensitivity analysis around a base case scenario. The key finding which should be of interest to policymakers is that while factors such as improved vaccine efficacy, increased vaccination rates, lower waning rates and more stringent non-pharmaceutical interventions might be thought to improve equilibrium levels of infection, this might only be done to good effect if vaccination coverage on a recurrent basis is sufficiently high.
Dagpunar, John
be796c6f-4b91-462b-b7ef-c9387efc26dc
Wu, Chenchen
402783d7-5d10-4571-986c-7c02ad627ef9
Dagpunar, John
be796c6f-4b91-462b-b7ef-c9387efc26dc
Wu, Chenchen
402783d7-5d10-4571-986c-7c02ad627ef9
Dagpunar, John and Wu, Chenchen
(2023)
Sensitivity of endemic behaviour of COVID-19 under a multi-dose vaccination regime, to various biological parameters and control variables.
Royal Society Open Science, 10 (5), [221277].
(doi:10.1098/rsos.221277).
Abstract
For an infectious disease such as COVID-19, we present a new four-stage vaccination model (unvaccinated, dose 1 + 2, booster, repeated boosters), which examines the impact of vaccination coverage, vaccination rate, generation interval, control reproduction number, vaccine efficacies and rates of waning immunity upon the dynamics of infection. We derive a single equation that allows computation of equilibrium prevalence and incidence of infection, given knowledge about these parameters and variable values. Based upon a 20-compartment model, we develop a numerical simulation of the associated differential equations. The model is not a forecasting or even predictive one, given the uncertainty about several biological parameter values. Rather, it is intended to aid a qualitative understanding of how equilibrium levels of infection may be impacted upon, by the parameters of the system. We examine one-at-a-time sensitivity analysis around a base case scenario. The key finding which should be of interest to policymakers is that while factors such as improved vaccine efficacy, increased vaccination rates, lower waning rates and more stringent non-pharmaceutical interventions might be thought to improve equilibrium levels of infection, this might only be done to good effect if vaccination coverage on a recurrent basis is sufficiently high.
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dagpunar-wu-2023-sensitivity-of-endemic-behaviour-of-covid-19-under-a-multi-dose-vaccination-regime-to-various
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Accepted/In Press date: 14 April 2023
e-pub ahead of print date: 10 May 2023
Identifiers
Local EPrints ID: 487829
URI: http://eprints.soton.ac.uk/id/eprint/487829
ISSN: 2054-5703
PURE UUID: 8bcfa55a-ed29-4d9a-a4e0-da0d2e85b24f
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Date deposited: 06 Mar 2024 17:30
Last modified: 21 Mar 2024 17:41
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Chenchen Wu
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