Alarm Variables for Dengue Outbreaks: A Multi-Centre Study in Asia and Latin America.

Leigh R. Bowman; Gustavo S. Tejeda; Giovanini E. Coelho; Lokman H. Sulaiman; Balvinder S. Gill; Philip McCall; Piero L. Olliaro; Silvia R. Ranzinger; Luong C. Quang; Ronald S. Ramm; Axel Kroeger; Max G. Petzold

doi:10.1371/journal.pone.0157971

Alarm Variables for Dengue Outbreaks: A Multi-Centre Study in Asia and Latin America.

Leigh R. Bowman, Gustavo S. Tejeda, Giovanini E. Coelho, Lokman H. Sulaiman, Balvinder S. Gill, Philip McCall, Piero L. Olliaro, Silvia R. Ranzinger, Luong C. Quang, Ronald S. Ramm, Axel Kroeger, Max G. Petzold

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45 Citations (Scopus)

Abstract

BACKGROUND

Worldwide, dengue is an unrelenting economic and health burden. Dengue outbreaks have become increasingly common, which place great strain on health infrastructure and services. Early warning models could allow health systems and vector control programmes to respond more cost-effectively and efficiently.

METHODOLOGY/PRINCIPAL FINDINGS

The Shewhart method and Endemic Channel were used to identify alarm variables that may predict dengue outbreaks. Five country datasets were compiled by epidemiological week over the years 2007-2013. These data were split between the years 2007-2011 (historic period) and 2012-2013 (evaluation period). Associations between alarm/ outbreak variables were analysed using logistic regression during the historic period while alarm and outbreak signals were captured during the evaluation period. These signals were combined to form alarm/ outbreak periods, where 2 signals were equal to 1 period. Alarm periods were quantified and used to predict subsequent outbreak periods. Across Mexico and Dominican Republic, an increase in probable cases predicted outbreaks of hospitalised cases with sensitivities and positive predictive values (PPV) of 93%/ 83% and 97%/ 86% respectively, at a lag of 1-12 weeks. An increase in mean temperature ably predicted outbreaks of hospitalised cases in Mexico and Brazil, with sensitivities and PPVs of 79%/ 73% and 81%/ 46% respectively, also at a lag of 1-12 weeks. Mean age was predictive of hospitalised cases at sensitivities and PPVs of 72%/ 74% and 96%/ 45% in Mexico and Malaysia respectively, at a lag of 4-16 weeks.

CONCLUSIONS/SIGNIFICANCE

An increase in probable cases was predictive of outbreaks, while meteorological variables, particularly mean temperature, demonstrated predictive potential in some countries, but not all. While it is difficult to define uniform variables applicable in every country context, the use of probable cases and meteorological variables in tailored early warning systems could be used to highlight the occurrence of dengue outbreaks or indicate increased risk of dengue transmission.

Original language	English
Article number	e0157971
Pages (from-to)	e0157971
Journal	PLoS ONE
Volume	11
Issue number	6
DOIs	https://doi.org/10.1371/journal.pone.0157971
Publication status	Published - 27 Jun 2016

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PLoS One 11 6 e0157971 Alarm variables for dengue outbreaksFinal published version, 3.53 MBLicence: CC BY
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title = "Alarm Variables for Dengue Outbreaks: A Multi-Centre Study in Asia and Latin America.",

abstract = "BACKGROUNDWorldwide, dengue is an unrelenting economic and health burden. Dengue outbreaks have become increasingly common, which place great strain on health infrastructure and services. Early warning models could allow health systems and vector control programmes to respond more cost-effectively and efficiently.METHODOLOGY/PRINCIPAL FINDINGSThe Shewhart method and Endemic Channel were used to identify alarm variables that may predict dengue outbreaks. Five country datasets were compiled by epidemiological week over the years 2007-2013. These data were split between the years 2007-2011 (historic period) and 2012-2013 (evaluation period). Associations between alarm/ outbreak variables were analysed using logistic regression during the historic period while alarm and outbreak signals were captured during the evaluation period. These signals were combined to form alarm/ outbreak periods, where 2 signals were equal to 1 period. Alarm periods were quantified and used to predict subsequent outbreak periods. Across Mexico and Dominican Republic, an increase in probable cases predicted outbreaks of hospitalised cases with sensitivities and positive predictive values (PPV) of 93\%/ 83\% and 97\%/ 86\% respectively, at a lag of 1-12 weeks. An increase in mean temperature ably predicted outbreaks of hospitalised cases in Mexico and Brazil, with sensitivities and PPVs of 79\%/ 73\% and 81\%/ 46\% respectively, also at a lag of 1-12 weeks. Mean age was predictive of hospitalised cases at sensitivities and PPVs of 72\%/ 74\% and 96\%/ 45\% in Mexico and Malaysia respectively, at a lag of 4-16 weeks.CONCLUSIONS/SIGNIFICANCEAn increase in probable cases was predictive of outbreaks, while meteorological variables, particularly mean temperature, demonstrated predictive potential in some countries, but not all. While it is difficult to define uniform variables applicable in every country context, the use of probable cases and meteorological variables in tailored early warning systems could be used to highlight the occurrence of dengue outbreaks or indicate increased risk of dengue transmission.",

author = "Bowman, \{Leigh R.\} and Tejeda, \{Gustavo S.\} and Coelho, \{Giovanini E.\} and Sulaiman, \{Lokman H.\} and Gill, \{Balvinder S.\} and Philip McCall and Olliaro, \{Piero L.\} and Ranzinger, \{Silvia R.\} and Quang, \{Luong C.\} and Ramm, \{Ronald S.\} and Axel Kroeger and Petzold, \{Max G.\}",

year = "2016",

month = jun,

day = "27",

doi = "10.1371/journal.pone.0157971",

language = "English",

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T1 - Alarm Variables for Dengue Outbreaks: A Multi-Centre Study in Asia and Latin America.

AU - Bowman, Leigh R.

AU - Tejeda, Gustavo S.

AU - Coelho, Giovanini E.

AU - Sulaiman, Lokman H.

AU - Gill, Balvinder S.

AU - McCall, Philip

AU - Olliaro, Piero L.

AU - Ranzinger, Silvia R.

AU - Quang, Luong C.

AU - Ramm, Ronald S.

AU - Kroeger, Axel

AU - Petzold, Max G.

PY - 2016/6/27

Y1 - 2016/6/27

N2 - BACKGROUNDWorldwide, dengue is an unrelenting economic and health burden. Dengue outbreaks have become increasingly common, which place great strain on health infrastructure and services. Early warning models could allow health systems and vector control programmes to respond more cost-effectively and efficiently.METHODOLOGY/PRINCIPAL FINDINGSThe Shewhart method and Endemic Channel were used to identify alarm variables that may predict dengue outbreaks. Five country datasets were compiled by epidemiological week over the years 2007-2013. These data were split between the years 2007-2011 (historic period) and 2012-2013 (evaluation period). Associations between alarm/ outbreak variables were analysed using logistic regression during the historic period while alarm and outbreak signals were captured during the evaluation period. These signals were combined to form alarm/ outbreak periods, where 2 signals were equal to 1 period. Alarm periods were quantified and used to predict subsequent outbreak periods. Across Mexico and Dominican Republic, an increase in probable cases predicted outbreaks of hospitalised cases with sensitivities and positive predictive values (PPV) of 93%/ 83% and 97%/ 86% respectively, at a lag of 1-12 weeks. An increase in mean temperature ably predicted outbreaks of hospitalised cases in Mexico and Brazil, with sensitivities and PPVs of 79%/ 73% and 81%/ 46% respectively, also at a lag of 1-12 weeks. Mean age was predictive of hospitalised cases at sensitivities and PPVs of 72%/ 74% and 96%/ 45% in Mexico and Malaysia respectively, at a lag of 4-16 weeks.CONCLUSIONS/SIGNIFICANCEAn increase in probable cases was predictive of outbreaks, while meteorological variables, particularly mean temperature, demonstrated predictive potential in some countries, but not all. While it is difficult to define uniform variables applicable in every country context, the use of probable cases and meteorological variables in tailored early warning systems could be used to highlight the occurrence of dengue outbreaks or indicate increased risk of dengue transmission.

AB - BACKGROUNDWorldwide, dengue is an unrelenting economic and health burden. Dengue outbreaks have become increasingly common, which place great strain on health infrastructure and services. Early warning models could allow health systems and vector control programmes to respond more cost-effectively and efficiently.METHODOLOGY/PRINCIPAL FINDINGSThe Shewhart method and Endemic Channel were used to identify alarm variables that may predict dengue outbreaks. Five country datasets were compiled by epidemiological week over the years 2007-2013. These data were split between the years 2007-2011 (historic period) and 2012-2013 (evaluation period). Associations between alarm/ outbreak variables were analysed using logistic regression during the historic period while alarm and outbreak signals were captured during the evaluation period. These signals were combined to form alarm/ outbreak periods, where 2 signals were equal to 1 period. Alarm periods were quantified and used to predict subsequent outbreak periods. Across Mexico and Dominican Republic, an increase in probable cases predicted outbreaks of hospitalised cases with sensitivities and positive predictive values (PPV) of 93%/ 83% and 97%/ 86% respectively, at a lag of 1-12 weeks. An increase in mean temperature ably predicted outbreaks of hospitalised cases in Mexico and Brazil, with sensitivities and PPVs of 79%/ 73% and 81%/ 46% respectively, also at a lag of 1-12 weeks. Mean age was predictive of hospitalised cases at sensitivities and PPVs of 72%/ 74% and 96%/ 45% in Mexico and Malaysia respectively, at a lag of 4-16 weeks.CONCLUSIONS/SIGNIFICANCEAn increase in probable cases was predictive of outbreaks, while meteorological variables, particularly mean temperature, demonstrated predictive potential in some countries, but not all. While it is difficult to define uniform variables applicable in every country context, the use of probable cases and meteorological variables in tailored early warning systems could be used to highlight the occurrence of dengue outbreaks or indicate increased risk of dengue transmission.

U2 - 10.1371/journal.pone.0157971

DO - 10.1371/journal.pone.0157971

M3 - Article

VL - 11

SP - e0157971

JO - PLoS ONE

JF - PLoS ONE

IS - 6

M1 - e0157971

ER -

Alarm Variables for Dengue Outbreaks: A Multi-Centre Study in Asia and Latin America.

Abstract

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