1. Social Network Analysis of Ebola Virus Disease During the 2014 Outbreak in Sukudu, Sierra Leone
- Author
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Ashley Hazel, Michelle C Davidson, Abu Rogers, M Bailor Barrie, Adams Freeman, Mohamed Mbayoh, Mohamed Kamara, Seth Blumberg, Thomas M Lietman, George W Rutherford, James Holland Jones, Travis C Porco, Eugene T Richardson, and J Daniel Kelly
- Subjects
Infectious Diseases ,Oncology - Abstract
Background Transmission by unreported cases has been proposed as a reason for the 2013–2016 Ebola virus (EBOV) epidemic decline in West Africa, but studies that test this hypothesis are lacking. We examined a transmission chain within social networks in Sukudu village to assess spread and transmission burnout. Methods Network data were collected in 2 phases: (1) serological and contact information from Ebola cases (n = 48, including unreported); and (2) interviews (n = 148), including Ebola survivors (n = 13), to identify key social interactions. Social links to the transmission chain were used to calculate cumulative incidence proportion as the number of EBOV-infected people in the network divided by total network size. Results The sample included 148 participants and 1522 contacts, comprising 10 social networks: 3 had strong links (>50% of cases) to the transmission chain: household sharing (largely kinship), leisure time, and talking about important things (both largely non-kin). Overall cumulative incidence for these networks was 37 of 311 (12%). Unreported cases did not have higher network centrality than reported cases. Conclusions Although this study did not find evidence that explained epidemic decline in Sukudu, it excluded potential reasons (eg, unreported cases, herd immunity) and identified 3 social interactions in EBOV transmission.
- Published
- 2022
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