Effective immunity and second waves: a dynamic causal modelling study

Karl J Friston; Thomas Parr; Peter Zeidman; Adeel Razi; Guillaume Flandin; Jean Daunizeau; Oliver J Hulme; Alexander J Billig; Vladimir Litvak; Cathy J Price; Rosalyn J Moran; Anthony Costello; Deenan Pillay; Christian Lambert

doi:10.12688/wellcomeopenres.16253.2

Effective immunity and second waves: a dynamic causal modelling study

Karl J Friston, Thomas Parr, Peter Zeidman, Adeel Razi, Guillaume Flandin, Jean Daunizeau, Oliver J Hulme, Alexander J Billig, Vladimir Litvak, Cathy J Price, Rosalyn J Moran, Anthony Costello, Deenan Pillay, Christian Lambert

5 Citations (Scopus)

Abstract

This technical report addresses a pressing issue in the trajectory of the coronavirus outbreak; namely, the rate at which effective immunity is lost following the first wave of the pandemic. This is a crucial epidemiological parameter that speaks to both the consequences of relaxing lockdown and the propensity for a second wave of infections. Using a dynamic causal model of reported cases and deaths from multiple countries, we evaluated the evidence models of progressively longer periods of immunity. The results speak to an effective population immunity of about three months that, under the model, defers any second wave for approximately six months in most countries. This may have implications for the window of opportunity for tracking and tracing, as well as for developing vaccination programmes, and other therapeutic interventions.

Original language	English
Article number	204
Journal	Wellcome Open Research
Volume	5
Pages (from-to)	1-27
Number of pages	27
ISSN	2398-502X
DOIs	https://doi.org/10.12688/wellcomeopenres.16253.2
Publication status	Published - 2020

Keywords

Bayesian
Compartmental models
Coronavirus
Dynamic causal modelling
Epidemiology
Variational

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10.12688/wellcomeopenres.16253.2

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title = "Effective immunity and second waves: a dynamic causal modelling study",

abstract = "This technical report addresses a pressing issue in the trajectory of the coronavirus outbreak; namely, the rate at which effective immunity is lost following the first wave of the pandemic. This is a crucial epidemiological parameter that speaks to both the consequences of relaxing lockdown and the propensity for a second wave of infections. Using a dynamic causal model of reported cases and deaths from multiple countries, we evaluated the evidence models of progressively longer periods of immunity. The results speak to an effective population immunity of about three months that, under the model, defers any second wave for approximately six months in most countries. This may have implications for the window of opportunity for tracking and tracing, as well as for developing vaccination programmes, and other therapeutic interventions.",

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year = "2020",

doi = "10.12688/wellcomeopenres.16253.2",

language = "English",

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T2 - a dynamic causal modelling study

AU - Friston, Karl J

AU - Parr, Thomas

AU - Zeidman, Peter

AU - Razi, Adeel

AU - Flandin, Guillaume

AU - Daunizeau, Jean

AU - Hulme, Oliver J

AU - Billig, Alexander J

AU - Litvak, Vladimir

AU - Price, Cathy J

AU - Moran, Rosalyn J

AU - Costello, Anthony

AU - Pillay, Deenan

AU - Lambert, Christian

PY - 2020

Y1 - 2020

N2 - This technical report addresses a pressing issue in the trajectory of the coronavirus outbreak; namely, the rate at which effective immunity is lost following the first wave of the pandemic. This is a crucial epidemiological parameter that speaks to both the consequences of relaxing lockdown and the propensity for a second wave of infections. Using a dynamic causal model of reported cases and deaths from multiple countries, we evaluated the evidence models of progressively longer periods of immunity. The results speak to an effective population immunity of about three months that, under the model, defers any second wave for approximately six months in most countries. This may have implications for the window of opportunity for tracking and tracing, as well as for developing vaccination programmes, and other therapeutic interventions.

AB - This technical report addresses a pressing issue in the trajectory of the coronavirus outbreak; namely, the rate at which effective immunity is lost following the first wave of the pandemic. This is a crucial epidemiological parameter that speaks to both the consequences of relaxing lockdown and the propensity for a second wave of infections. Using a dynamic causal model of reported cases and deaths from multiple countries, we evaluated the evidence models of progressively longer periods of immunity. The results speak to an effective population immunity of about three months that, under the model, defers any second wave for approximately six months in most countries. This may have implications for the window of opportunity for tracking and tracing, as well as for developing vaccination programmes, and other therapeutic interventions.

KW - Bayesian

KW - Compartmental models

KW - Coronavirus

KW - Dynamic causal modelling

KW - Epidemiology

KW - Variational

UR - https://www.scopus.com/pages/publications/85096381655

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DO - 10.12688/wellcomeopenres.16253.2

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ER -

Effective immunity and second waves: a dynamic causal modelling study

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Keywords

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