Syndromic Surveillance of Respiratory Disease in Free-Living Chimpanzees

Tiffany M Wolf; Randall Singer; Elizabeth V. Lonsdorf; Richard F Maclehose; Thomas R. Gillespie; Iddi Lipende; Jane Raphael; Karen Terio; Carson Murray; Anne Pusey; Beatrice H. Hahn; Shadrack Kamenya; Deus Mjungu; Dominic A Travis

doi:10.1007/s10393-019-01400-y

Syndromic Surveillance of Respiratory Disease in Free-Living Chimpanzees

Tiffany M Wolf, Randall Singer, Elizabeth V. Lonsdorf, Richard F Maclehose, Thomas R. Gillespie, Iddi Lipende, Jane Raphael, Karen Terio, Carson Murray, Anne Pusey, Beatrice H. Hahn, Shadrack Kamenya, Deus Mjungu, Dominic A Travis

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4 Scopus citations

Abstract

Disease surveillance in wildlife is rapidly expanding in scope and methodology, emphasizing the need for formal evaluations of system performance. We examined a syndromic surveillance system for respiratory disease detection in Gombe National Park, Tanzania, from 2004 to 2012, with respect to data quality, disease trends, and respiratory disease detection. Data quality was assessed by examining community coverage, completeness, and consistency. The data were examined for baseline trends; signs of respiratory disease occurred at a mean frequency of less than 1 case per week, with most weeks containing zero observations of abnormalities. Seasonal and secular (i.e., over a period of years) trends in respiratory disease frequency were not identified. These baselines were used to develop algorithms for outbreak detection using both weekly counts and weekly prevalence thresholds and then compared retrospectively on the detection of 13 respiratory disease clusters from 2005 to 2012. Prospective application of outbreak detection algorithms to real-time syndromic data would be useful in triggering a rapid outbreak response, such as targeted diagnostic sampling, enhanced surveillance, or mitigation.

Original language	English (US)
Journal	EcoHealth
DOIs	https://doi.org/10.1007/s10393-019-01400-y
State	Published - Jan 1 2019

Keywords

Respiratory disease
Surveillance
Wildlife epidemiology
Wildlife health

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't
Research Support, N.I.H., Extramural
Research Support, U.S. Gov't, Non-P.H.S.

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title = "Syndromic Surveillance of Respiratory Disease in Free-Living Chimpanzees",

abstract = "Disease surveillance in wildlife is rapidly expanding in scope and methodology, emphasizing the need for formal evaluations of system performance. We examined a syndromic surveillance system for respiratory disease detection in Gombe National Park, Tanzania, from 2004 to 2012, with respect to data quality, disease trends, and respiratory disease detection. Data quality was assessed by examining community coverage, completeness, and consistency. The data were examined for baseline trends; signs of respiratory disease occurred at a mean frequency of less than 1 case per week, with most weeks containing zero observations of abnormalities. Seasonal and secular (i.e., over a period of years) trends in respiratory disease frequency were not identified. These baselines were used to develop algorithms for outbreak detection using both weekly counts and weekly prevalence thresholds and then compared retrospectively on the detection of 13 respiratory disease clusters from 2005 to 2012. Prospective application of outbreak detection algorithms to real-time syndromic data would be useful in triggering a rapid outbreak response, such as targeted diagnostic sampling, enhanced surveillance, or mitigation.",

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AU - Wolf, Tiffany M

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AU - Lonsdorf, Elizabeth V.

AU - Maclehose, Richard F

AU - Gillespie, Thomas R.

AU - Lipende, Iddi

AU - Raphael, Jane

AU - Terio, Karen

AU - Murray, Carson

AU - Pusey, Anne

AU - Hahn, Beatrice H.

AU - Kamenya, Shadrack

AU - Mjungu, Deus

AU - Travis, Dominic A

PY - 2019/1/1

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N2 - Disease surveillance in wildlife is rapidly expanding in scope and methodology, emphasizing the need for formal evaluations of system performance. We examined a syndromic surveillance system for respiratory disease detection in Gombe National Park, Tanzania, from 2004 to 2012, with respect to data quality, disease trends, and respiratory disease detection. Data quality was assessed by examining community coverage, completeness, and consistency. The data were examined for baseline trends; signs of respiratory disease occurred at a mean frequency of less than 1 case per week, with most weeks containing zero observations of abnormalities. Seasonal and secular (i.e., over a period of years) trends in respiratory disease frequency were not identified. These baselines were used to develop algorithms for outbreak detection using both weekly counts and weekly prevalence thresholds and then compared retrospectively on the detection of 13 respiratory disease clusters from 2005 to 2012. Prospective application of outbreak detection algorithms to real-time syndromic data would be useful in triggering a rapid outbreak response, such as targeted diagnostic sampling, enhanced surveillance, or mitigation.

AB - Disease surveillance in wildlife is rapidly expanding in scope and methodology, emphasizing the need for formal evaluations of system performance. We examined a syndromic surveillance system for respiratory disease detection in Gombe National Park, Tanzania, from 2004 to 2012, with respect to data quality, disease trends, and respiratory disease detection. Data quality was assessed by examining community coverage, completeness, and consistency. The data were examined for baseline trends; signs of respiratory disease occurred at a mean frequency of less than 1 case per week, with most weeks containing zero observations of abnormalities. Seasonal and secular (i.e., over a period of years) trends in respiratory disease frequency were not identified. These baselines were used to develop algorithms for outbreak detection using both weekly counts and weekly prevalence thresholds and then compared retrospectively on the detection of 13 respiratory disease clusters from 2005 to 2012. Prospective application of outbreak detection algorithms to real-time syndromic data would be useful in triggering a rapid outbreak response, such as targeted diagnostic sampling, enhanced surveillance, or mitigation.

KW - Respiratory disease

KW - Surveillance

KW - Wildlife epidemiology

KW - Wildlife health

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Syndromic Surveillance of Respiratory Disease in Free-Living Chimpanzees

Abstract

Keywords

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UN SDGs

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