Connecting-Africa | Find publications

Advanced search

Find:


Title Estimating the impact of violent events on transmission in Ebola virus disease outbreak, Democratic Republic of the Congo, 2018-2019.
Full text https://escholarship.org/uc/item/7c6949fr
Date 2019
Author(s) Wannier, S Rae; Worden, Lee; Hoff, Nicole A; Amezcua, Eduardo; Selo, Bernice; Sinai, Cyrus; Mossoko, Mathias; Njoloko, Bathe; Okitolonda-Wemakoy, Emile; Mbala-Kingebeni, Placide; Ahuka-Mundeke, Steve; Muyembe-Tamfum, Jean Jacques; Richardson, Eugene T; Rutherford, George W; Jones, James H; Lietman, Thomas M; Rimoin, Anne W; Porco, Travis C; Kelly, J Daniel
Abstract IntroductionAs of April 2019, the current Ebola virus disease (EVD) outbreak in the Democratic Republic of the Congo (DRC) is occurring in a longstanding conflict zone and has become the second largest EVD outbreak in history. It is suspected that after violent events occur, EVD transmission will increase; however, empirical studies to understand the impact of violence on transmission are lacking. Here, we use spatial and temporal trends of EVD case counts to compare transmission rates between health zones that have versus have not experienced recent violent events during the outbreak.MethodsWe collected daily EVD case counts from DRC Ministry of Health. A time-varying indicator of recent violence in each health zone was derived from events documented in the WHO situation reports. We used the Wallinga-Teunis technique to estimate the reproduction number R for each case by day per zone in the 2018-2019 outbreak. We fit an exponentially decaying curve to estimates of R overall and by health zone, for comparison to past outbreaks.ResultsAs of 16 April 2019, the mean overall R for the entire outbreak was 1.11. We found evidence of an increase in the estimated transmission rates in health zones with recently reported violent events versus those without (p = 0.008). The average R was estimated as between 0.61 and 0.86 in regions not affected by recent violent events, and between 1.01 and 1.07 in zones affected by violent events within the last 21 days, leading to an increase in R between 0.17 and 0.53. Within zones with recent violent events, the mean estimated quenching rate was lower than for all past outbreaks except the 2013-2016 West African outbreak.ConclusionThe difference in the estimated transmission rates between zones affected by recent violent events suggests that violent events are contributing to increased transmission and the ongoing nature of this outbreak.
Subject(s) Humans; Hemorrhagic Fever; Ebola; Disease Outbreaks; Time; Violence; Democratic Republic of the Congo; Africa; Democratic Republic of Congo; Ebola virus disease; Geospatial; Mathematical modeling; Outbreak; Hemorrhagic Fever; Ebola; Clinical Sciences; Public Health and Health Services
Publisher eScholarship, University of California
Type of publication article
Format application/pdf
Rights public
Identifier qt7c6949fr
Repository Berkeley - University of California
Added to C-A: 2021-02-24;11:32:06