Journal
PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES
Volume 380, Issue 2233, Pages -Publisher
ROYAL SOC
DOI: 10.1098/rsta.2021.0307
Keywords
epidemics; immune response; process calculi; multi-scale modelling; COVID-19
Categories
Funding
- Foundation for Innovative New Diagnostics
- MRC
- Center for Effective Altruism's Long-Term Future Fund [MR/V027956/1]
- Wellcome Trust
- [206250/Z/17/Z]
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Transmission models for infectious diseases typically do not consider underlying biological processes and lack flexibility for modifications and combination at different scales. This study presents a simple immune response model and transmission model that can be easily modified and merged, allowing for more refined simulations.
Transmission models for infectious diseases are typically formulated in terms of dynamics between individuals or groups with processes such as disease progression or recovery for each individual captured phenomenologically, without reference to underlying biological processes. Furthermore, the construction of these models is often monolithic: they do not allow one to readily modify the processes involved or include the new ones, or to combine models at different scales. We show how to construct a simple model of immune response to a respiratory virus and a model of transmission using an easily modifiable set of rules allowing further refining and merging the two models together. The immune response model reproduces the expected response curve of PCR testing for COVID-19 and implies a long-tailed distribution of infectiousness reflective of individual heterogeneity. This immune response model, when combined with a transmission model, reproduces the previously reported shift in the population distribution of viral loads along an epidemic trajectory.This article is part of the theme issue 'Technical challenges of modelling real-life epidemics and examples of overcoming these'.
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