Real-time predictions of the 2018–2019 Ebola virus disease outbreak in the Democratic Republic of the Congo using Hawkes point process models

Real-time predictions of the 2018–2019 Ebola virus disease outbreak in the Democratic Republic of the Congo using Hawkes point process models

As of June 16, 2019, an Ebola virus disease (EVD) outbreak has led to 2136 reported cases in the northeastern region of the Democratic Republic of the Congo (DRC). As this outbreak continues to threaten the lives and livelihoods of people already suffering from civil strife and armed conflict, relat...

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Main Authors: J. Daniel Kelly, Junhyung Park, Ryan J. Harrigan, Nicole A. Hoff, Sarita D. Lee, Rae Wannier, Bernice Selo, Mathias Mossoko, Bathe Njoloko, Emile Okitolonda-Wemakoy, Placide Mbala-Kingebeni, George W. Rutherford, Thomas B. Smith, Steve Ahuka-Mundeke, Jean Jacques Muyembe-Tamfum, Anne W. Rimoin, Frederic Paik Schoenberg
Format: Article
Language:English
Published: Elsevier 2019-09-01
Series:Epidemics
Online Access:http://www.sciencedirect.com/science/article/pii/S1755436519300258
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spelling doaj-2b0a298b6c7645088ad305c42160d2022020-11-24T21:54:05ZengElsevierEpidemics1755-43652019-09-0128Real-time predictions of the 2018–2019 Ebola virus disease outbreak in the Democratic Republic of the Congo using Hawkes point process modelsJ. Daniel Kelly0Junhyung Park1Ryan J. Harrigan2Nicole A. Hoff3Sarita D. Lee4Rae Wannier5Bernice Selo6Mathias Mossoko7Bathe Njoloko8Emile Okitolonda-Wemakoy9Placide Mbala-Kingebeni10George W. Rutherford11Thomas B. Smith12Steve Ahuka-Mundeke13Jean Jacques Muyembe-Tamfum14Anne W. Rimoin15Frederic Paik Schoenberg16Department of Epidemiology and Biostatistics, University of California, San Francisco, CA, USA; F.I. Proctor Foundation, University of California, San Francisco, CA USA; Corresponding author at: Box 0886 3rd Floor, 550 16th Street, San Francisco, CA 94143, USA.Department of Statistics, University of California, Los Angeles, CA, USACenter for Tropical Research, Institute of the Environment and Sustainability, University of California, Los Angeles, CA, USADepartment of Epidemiology, University of California, Los Angeles, CA, USADepartment of Statistics, University of California, Los Angeles, CA, USADepartment of Epidemiology and Biostatistics, University of California, San Francisco, CA, USAMinistry of Health, Kinshasa, CongoMinistry of Health, Kinshasa, CongoMinistry of Health, Kinshasa, CongoSchool of Public Health, University of Kinshasa, Kinshasa, CongoInstitut National de Recherche Biomedicale, Kinshasa, CongoDepartment of Epidemiology and Biostatistics, University of California, San Francisco, CA, USACenter for Tropical Research, Institute of the Environment and Sustainability, University of California, Los Angeles, CA, USAInstitut National de Recherche Biomedicale, Kinshasa, CongoInstitut National de Recherche Biomedicale, Kinshasa, CongoDepartment of Epidemiology, University of California, Los Angeles, CA, USADepartment of Statistics, University of California, Los Angeles, CA, USAAs of June 16, 2019, an Ebola virus disease (EVD) outbreak has led to 2136 reported cases in the northeastern region of the Democratic Republic of the Congo (DRC). As this outbreak continues to threaten the lives and livelihoods of people already suffering from civil strife and armed conflict, relatively simple mathematical models and their short-term predictions have the potential to inform Ebola response efforts in real time. We applied recently developed non-parametrically estimated Hawkes point processes to model the expected cumulative case count using daily case counts from May 3, 2018, to June 16, 2019, initially reported by the Ministry of Health of DRC and later confirmed in World Health Organization situation reports. We generated probabilistic estimates of the ongoing EVD outbreak in DRC extending both before and after June 16, 2019, and evaluated their accuracy by comparing forecasted vs. actual outbreak sizes, out-of-sample log-likelihood scores and the error per day in the median forecast. The median estimated outbreak sizes for the prospective thee-, six-, and nine-week projections made using data up to June 16, 2019, were, respectively, 2317 (95% PI: 2222, 2464); 2440 (95% PI: 2250, 2790); and 2544 (95% PI: 2273, 3205). The nine-week projection experienced some degradation with a daily error in the median forecast of 6.73 cases, while the six- and three-week projections were more reliable, with corresponding errors of 4.96 and 4.85 cases per day, respectively. Our findings suggest the Hawkes point process may serve as an easily-applied statistical model to predict EVD outbreak trajectories in near real-time to better inform decision-making and resource allocation during Ebola response efforts. Keywords: Ebola virus disease, Hawkes point process, Mathematical modeling, Democratic Republic of Congo, Compartmental modelshttp://www.sciencedirect.com/science/article/pii/S1755436519300258
collection DOAJ
language English
format Article
sources DOAJ
author J. Daniel Kelly
Junhyung Park
Ryan J. Harrigan
Nicole A. Hoff
Sarita D. Lee
Rae Wannier
Bernice Selo
Mathias Mossoko
Bathe Njoloko
Emile Okitolonda-Wemakoy
Placide Mbala-Kingebeni
George W. Rutherford
Thomas B. Smith
Steve Ahuka-Mundeke
Jean Jacques Muyembe-Tamfum
Anne W. Rimoin
Frederic Paik Schoenberg
spellingShingle J. Daniel Kelly
Junhyung Park
Ryan J. Harrigan
Nicole A. Hoff
Sarita D. Lee
Rae Wannier
Bernice Selo
Mathias Mossoko
Bathe Njoloko
Emile Okitolonda-Wemakoy
Placide Mbala-Kingebeni
George W. Rutherford
Thomas B. Smith
Steve Ahuka-Mundeke
Jean Jacques Muyembe-Tamfum
Anne W. Rimoin
Frederic Paik Schoenberg
Real-time predictions of the 2018–2019 Ebola virus disease outbreak in the Democratic Republic of the Congo using Hawkes point process models
Epidemics
author_facet J. Daniel Kelly
Junhyung Park
Ryan J. Harrigan
Nicole A. Hoff
Sarita D. Lee
Rae Wannier
Bernice Selo
Mathias Mossoko
Bathe Njoloko
Emile Okitolonda-Wemakoy
Placide Mbala-Kingebeni
George W. Rutherford
Thomas B. Smith
Steve Ahuka-Mundeke
Jean Jacques Muyembe-Tamfum
Anne W. Rimoin
Frederic Paik Schoenberg
author_sort J. Daniel Kelly
title Real-time predictions of the 2018–2019 Ebola virus disease outbreak in the Democratic Republic of the Congo using Hawkes point process models
title_short Real-time predictions of the 2018–2019 Ebola virus disease outbreak in the Democratic Republic of the Congo using Hawkes point process models
title_full Real-time predictions of the 2018–2019 Ebola virus disease outbreak in the Democratic Republic of the Congo using Hawkes point process models
title_fullStr Real-time predictions of the 2018–2019 Ebola virus disease outbreak in the Democratic Republic of the Congo using Hawkes point process models
title_full_unstemmed Real-time predictions of the 2018–2019 Ebola virus disease outbreak in the Democratic Republic of the Congo using Hawkes point process models
title_sort real-time predictions of the 2018–2019 ebola virus disease outbreak in the democratic republic of the congo using hawkes point process models
publisher Elsevier
series Epidemics
issn 1755-4365
publishDate 2019-09-01
description As of June 16, 2019, an Ebola virus disease (EVD) outbreak has led to 2136 reported cases in the northeastern region of the Democratic Republic of the Congo (DRC). As this outbreak continues to threaten the lives and livelihoods of people already suffering from civil strife and armed conflict, relatively simple mathematical models and their short-term predictions have the potential to inform Ebola response efforts in real time. We applied recently developed non-parametrically estimated Hawkes point processes to model the expected cumulative case count using daily case counts from May 3, 2018, to June 16, 2019, initially reported by the Ministry of Health of DRC and later confirmed in World Health Organization situation reports. We generated probabilistic estimates of the ongoing EVD outbreak in DRC extending both before and after June 16, 2019, and evaluated their accuracy by comparing forecasted vs. actual outbreak sizes, out-of-sample log-likelihood scores and the error per day in the median forecast. The median estimated outbreak sizes for the prospective thee-, six-, and nine-week projections made using data up to June 16, 2019, were, respectively, 2317 (95% PI: 2222, 2464); 2440 (95% PI: 2250, 2790); and 2544 (95% PI: 2273, 3205). The nine-week projection experienced some degradation with a daily error in the median forecast of 6.73 cases, while the six- and three-week projections were more reliable, with corresponding errors of 4.96 and 4.85 cases per day, respectively. Our findings suggest the Hawkes point process may serve as an easily-applied statistical model to predict EVD outbreak trajectories in near real-time to better inform decision-making and resource allocation during Ebola response efforts. Keywords: Ebola virus disease, Hawkes point process, Mathematical modeling, Democratic Republic of Congo, Compartmental models
url http://www.sciencedirect.com/science/article/pii/S1755436519300258
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