A systematic review of early modelling studies of Ebola virus disease in West Africa

Wong, Zoie Shui-Yee; Bui, Chau Minh; Chughtai, Abrar Ahmad; MacIntyre, C. Raina

doi:10.1017/s0950268817000164

Cited by 35 publications

(28 citation statements)

References 68 publications

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“…While real-time modeling projections historically overestimate outbreak size and duration, 47,48 this study exemplifies how simple mathematical models can be useful for advising real-time decision making because they provide rapid projections and similar estimates of R as compared to complex models. 49 Vaccine use, regardless of 62% or 44% coverage levels, is projected to provide a limited preventive benefit, which may be partially due to timing of implementation (after predicted peak of the epidemic curve). As such, the massive mobilization of resources to roll it out should not detract from the prioritization of patient and survivor care, lest we recapitulate the control-overcare paradigm that marred the response to the 2013-2016 outbreak in West Africa.…”

Section: Discussionmentioning

confidence: 99%

Real-time projections of Ebola outbreak size and duration with and without vaccine use in Équateur, Democratic Republic of Congo, as of May 27, 2018

Kelly

Worden

Wannier

et al. 2018

Preprint

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Background: As of May 27, 2018, 54 cases of Ebola virus disease (EVD) were reported in Équateur Province, Democratic Republic of Congo. We used reported case counts and time series from prior outbreaks to estimate the current outbreak size and duration with and without vaccine use. Methods:We modeled Ebola virus transmission using a stochastic branching process model with a negative binomial distribution, using both estimates of reproduction number R declining from supercritical to subcritical derived from past Ebola outbreaks, as well as a particle filtering method to generate a probabilistic projection of the future course of the outbreak conditioned on its reported trajectory to date; modeled using 0%, 44%, and 62% estimates of vaccination coverage. Additionally, we used the time series for 18 prior Ebola outbreaks from 1976 to 2016 to parameterize a regression model predicting the outbreak size from the number of observed cases from April 4 to May 27. Results:With the stochastic transmission model, we projected a median outbreak size of 78 EVD cases (95% credible interval: 52, 125.4), 86 cases (95% credible interval: 53, 174.3), and 91 cases (95% credible interval: 52, 843.5), using 62%, 44%, and 0% estimates of vaccination coverage. With the regression All rights reserved. No reuse allowed without permission.The copyright holder for this preprint (which was not peer-reviewed) is the author/funder. . https://doi.org/10.1101/331447 doi: bioRxiv preprint model, we estimated a median size of 85.0 cases (95% prediction interval: 53.5, 216.6).Conclusions: This outbreak has the potential to be the largest outbreak in DRC since 2007. Vaccines are projected to limit outbreak size and duration but are only part of prevention, control, and care strategies.

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Section: Discussionmentioning

confidence: 99%

Real-time projections of Ebola outbreak size and duration with and without vaccine use in Équateur, Democratic Republic of Congo, as of May 27, 2018

Kelly

Worden

Wannier

et al. 2018

Preprint

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“…Some studies did not specify their methods or details relating to data extraction and mining and extent of human moderation [8,10,13]. No literature to our knowledge has yet analysed the utility of symptom data from tweets for the detection of EVD [14]. Thus, the aim of our study is to evaluate the value of symptomatic tweets for rapid infectious disease surveillance of the 2014 Ebola epidemic in West Africa, using automated monitoring.…”

Section: Competing Interestsmentioning

confidence: 99%

Automated monitoring of tweets for early detection of the 2014 Ebola epidemic

et al. 2020

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First reported in March 2014, an Ebola epidemic impacted West Africa, most notably Liberia, Guinea and Sierra Leone. We demonstrate the value of social media for automated surveillance of infectious diseases such as the West Africa Ebola epidemic. We experiment with two variations of an existing surveillance architecture: the first aggregates tweets related to different symptoms together, while the second considers tweets about each symptom separately and then aggregates the set of alerts generated by the architecture. Using a dataset of tweets posted from the affected region from 2011 to 2014, we obtain alerts in December 2013, which is three months prior to the official announcement of the epidemic. Among the two variations, the second, which produces a restricted but useful set of alerts, can potentially be applied to other infectious disease surveillance and alert systems.

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“…The epidemic threshold is defined as R equals 1, and any infection with an R0>1 has epidemic potential. Ebola, for example, was estimated to have a R0 of about 2 during the 2014 West African epidemic (8). Diseases such as smallpox and Ebola are epidemic in nature and a delay in response of even weeks can be critical because of the exponential growth in case numbers.…”

Section: The Nature Of True Epidemicsmentioning

confidence: 99%