Author: Sturniolo, S.; Waites, W.; Colbourn, T.; Manheim, D.; Panovska-Griffiths, J.
Title: Testing, tracing and isolation in compartmental models Cord-id: g01wmmbx Document date: 2020_5_19
ID: g01wmmbx
Snippet: Existing compartmental mathematical modelling methods for epidemics, such as SEIR models, cannot accurately represent effects of testing, contact tracing and isolation. This makes them inappropriate for evaluating testing and contact tracing strategies to contain an outbreak. An alternative used in practice is the application of agent- or individual-based models (ABM). However ABMs are complex, less well-understood and much more computationally expensive. This paper presents a new method for acc
Document: Existing compartmental mathematical modelling methods for epidemics, such as SEIR models, cannot accurately represent effects of testing, contact tracing and isolation. This makes them inappropriate for evaluating testing and contact tracing strategies to contain an outbreak. An alternative used in practice is the application of agent- or individual-based models (ABM). However ABMs are complex, less well-understood and much more computationally expensive. This paper presents a new method for accurately including the effects of Testing, contact-Tracing and Isolation (TTI) strategies in standard compartmental models. We derive our method using a careful probabilistic argument to show how contact tracing at the individual level is reflected in aggregate on the population level. We show that the resultant SEIR-TTI model accurately approximates the behaviour of a mechanistic agent-based model at far less computational cost. The computationally efficiency is such that it be easily and cheaply used for exploratory modelling to quantify the required levels of testing and tracing, alone and with other interventions, to assist adaptive planning for managing disease outbreaks.
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