Last data update: Oct 28, 2024. (Total: 48004 publications since 2009)
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Laboratory capacity expansion: lessons from establishing molecular testing in regional referral laboratories in Ethiopia
Chekol L , Waktola E , Nawaz S , Tadesse L , Muluye S , Bonger Z , Bogale A , Eshetu F , Degefaw D , Tayachew A , Delelegn H , Daves S , Seyoum E , Moon K , Melese D , Balada JM , Wang SH , Williams D , Gebreyes W , Mekuria Z . Int Health 2024 Respiratory viruses contribute to high morbidity and mortality in Africa. In 2020, the Ohio State University's Global One Health Initiative, in collaboration with the Ethiopian Public Health Institute and the US Centers for Disease Control and Prevention, took action to strengthen Ethiopia's existing respiratory virus surveillance system through decentralization of laboratory testing and scale-up of national and regional capacity for detecting respiratory viruses. In August 2022, four regional laboratories were established, thereby raising the number of reference laboratories conducting respiratory virus surveillance to five. This article highlights lessons learned during implementation and outlines processes undertaken for laboratory scale-up and decentralization. |
Regional and temporal variations in COVID-19 cases and deaths in Ethiopia: Lessons learned from the COVID-19 enhanced surveillance and response
Teka G , Woldeab A , Dereje N , Eshetu F , Gizachew L , Tazu Z , Lisanwork L , Tigabu E , Gebeyehu A , Tayachew A , Biru M , Berkessa T , Keraleme A , Bikale F , Shure W , Agune A , Haile B , Addis B , Moges M , Gonta M , Hailemariam A , Binkley L , Nawaz S , Wang SH , Mekuria Z , Aklilu A , Aliy J , Lulseged S , Girmay A , Patrick A , Amare B , Delelegn H , Daves S , Yimer G , Abate E , Wossen M , Melaku Z , Gebreyes W , Williams DE , Abayneh A . PLOS Glob Public Health 2024 4 (5) e0003175 BACKGROUND: The COVID-19 pandemic is one of the most devastating public health emergencies of international concern to have occurred in the past century. To ensure a safe, scalable, and sustainable response, it is imperative to understand the burden of disease, epidemiological trends, and responses to activities that have already been implemented. We aimed to analyze how COVID-19 tests, cases, and deaths varied by time and region in the general population and healthcare workers (HCWs) in Ethiopia. METHODS: COVID-19 data were captured between October 01, 2021, and September 30, 2022, in 64 systematically selected health facilities throughout Ethiopia. The number of health facilities included in the study was proportionally allocated to the regional states of Ethiopia. Data were captured by standardized tools and formats. Analysis of COVID-19 testing performed, cases detected, and deaths registered by region and time was carried out. RESULTS: We analyzed 215,024 individuals' data that were captured through COVID-19 surveillance in Ethiopia. Of the 215,024 total tests, 18,964 COVID-19 cases (8.8%, 95% CI: 8.7%- 9.0%) were identified and 534 (2.8%, 95% CI: 2.6%- 3.1%) were deceased. The positivity rate ranged from 1% in the Afar region to 15% in the Sidama region. Eight (1.2%, 95% CI: 0.4%- 2.0%) HCWs died out of 664 infected HCWs, of which 81.5% were from Addis Ababa. Three waves of outbreaks were detected during the analysis period, with the highest positivity rate of 35% during the Omicron period and the highest rate of ICU beds and mechanical ventilators (38%) occupied by COVID-19 patients during the Delta period. CONCLUSIONS: The temporal and regional variations in COVID-19 cases and deaths in Ethiopia underscore the need for concerted efforts to address the disparities in the COVID-19 surveillance and response system. These lessons should be critically considered during the integration of the COVID-19 surveillance system into the routine surveillance system. |
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