Vaccine Effects on Heterogeneity in Susceptibility and Implications for Population Health Management

Kate E. Langwig; Andrew R Wargo; Darbi R. Jones; Jessie R Viss; Barbara J. Rutan; Nicholas A Egan; Pedro Sá-Guimarães; Min Sun Kim; Gael Kurath; Gabriela Gomes; Marc Lipsitch

doi:10.1128/mbio.00796-17

Vaccine Effects on Heterogeneity in Susceptibility and Implications for Population Health Management

Kate E. Langwig, Andrew R Wargo, Darbi R. Jones, Jessie R Viss, Barbara J. Rutan, Nicholas A Egan, Pedro Sá-Guimarães, Min Sun Kim, Gael Kurath, Gabriela Gomes, Marc Lipsitch

Clinical Sciences

Liverpool School of Tropical Medicine

Research output: Contribution to journal › Article › peer-review

32 Citations (Scopus)

Abstract

Heterogeneity in host susceptibility is a key determinant of infectious disease dynamics but is rarely accounted for in assessment of disease control measures. Understanding how susceptibility is distributed in populations, and how control measures change this distribution, is integral to predicting the course of epidemics with and without interventions. Using multiple experimental and modeling approaches, we show that rainbow trout have relatively homogeneous susceptibility to infection with infectious hematopoietic necrosis virus and that vaccination increases heterogeneity in susceptibility in a nearly all-or-nothing fashion. In a simple transmission model with an R0 of 2, the highly heterogeneous vaccine protection would cause a 35 percentage-point reduction in outbreak size over an intervention inducing homogenous protection at the same mean level. More broadly, these findings provide validation of methodology that can help to reduce biases in predictions of vaccine impact in natural settings and provide insight into how vaccination shapes population susceptibility.

Original language	English
Article number	e00796-17
Pages (from-to)	e00796-17
Journal	mBio
Volume	8
Issue number	6
DOIs	https://doi.org/10.1128/mbio.00796-17
Publication status	Published - 21 Nov 2017

Keywords

All-or-nothing vaccines
Heterogeneity
Infectious disease dynamics
Mode of vaccine action
Partially protective vaccine

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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MBio-2017-Langwig-Final published version, 961 KBLicence: CC BY

Cite this

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title = "Vaccine Effects on Heterogeneity in Susceptibility and Implications for Population Health Management",

abstract = "Heterogeneity in host susceptibility is a key determinant of infectious disease dynamics but is rarely accounted for in assessment of disease control measures. Understanding how susceptibility is distributed in populations, and how control measures change this distribution, is integral to predicting the course of epidemics with and without interventions. Using multiple experimental and modeling approaches, we show that rainbow trout have relatively homogeneous susceptibility to infection with infectious hematopoietic necrosis virus and that vaccination increases heterogeneity in susceptibility in a nearly all-or-nothing fashion. In a simple transmission model with an R0 of 2, the highly heterogeneous vaccine protection would cause a 35 percentage-point reduction in outbreak size over an intervention inducing homogenous protection at the same mean level. More broadly, these findings provide validation of methodology that can help to reduce biases in predictions of vaccine impact in natural settings and provide insight into how vaccination shapes population susceptibility.",

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AU - Langwig, Kate E.

AU - Wargo, Andrew R

AU - Jones, Darbi R.

AU - Viss, Jessie R

AU - Rutan, Barbara J.

AU - Egan, Nicholas A

AU - Sá-Guimarães, Pedro

AU - Kim, Min Sun

AU - Kurath, Gael

AU - Gomes, Gabriela

AU - Lipsitch, Marc

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AB - Heterogeneity in host susceptibility is a key determinant of infectious disease dynamics but is rarely accounted for in assessment of disease control measures. Understanding how susceptibility is distributed in populations, and how control measures change this distribution, is integral to predicting the course of epidemics with and without interventions. Using multiple experimental and modeling approaches, we show that rainbow trout have relatively homogeneous susceptibility to infection with infectious hematopoietic necrosis virus and that vaccination increases heterogeneity in susceptibility in a nearly all-or-nothing fashion. In a simple transmission model with an R0 of 2, the highly heterogeneous vaccine protection would cause a 35 percentage-point reduction in outbreak size over an intervention inducing homogenous protection at the same mean level. More broadly, these findings provide validation of methodology that can help to reduce biases in predictions of vaccine impact in natural settings and provide insight into how vaccination shapes population susceptibility.

KW - All-or-nothing vaccines

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Vaccine Effects on Heterogeneity in Susceptibility and Implications for Population Health Management

Abstract

Keywords

UN SDGs

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