The genomic epidemiology of SARS-CoV-2 variants of concern in Kenya
Author:
Githinji GeorgeORCID, Lambisia Arnold W., Omah Ifeanyi, O’Toole Aine, Mohamed Khadija Said, de Laurent Zaydah R., Makori Timothy O., Mwanga Mike, Mburu Maureen W., Morobe John M.ORCID, Ong’era Edidah M., Ndwiga Leonard, Gathii Kimita, Thiongo Kelvin, Omuoyo Don Williams O., Chepkorir Edith, Musyoki Jennifer, Kingwara Leonard, Matoke Damaris, Oyola Samuel O., Onyango Clayton, Waitumbi John, Bulimo Wallace, Khamadi Samoel, Kiiru John N. O., Kinyanjui Samson, Cotten MatthewORCID, Tsofa Benjamin, Ochola-Oyier Isabella, Rambaut Andrew, Nokes D. James, Bejon Philip, Agoti CharlesORCID
Abstract
AbstractThe emergence and establishment of SARS-CoV-2 variants of concern presented a major global public health crisis across the world. There were six waves of SARS-CoV-2 cases in Kenya that corresponded with the introduction and eventual dominance of the major SARS-COV-2 variants of concern, excepting the first 2 waves that were both wild-type virus. We estimate that more than 1000 SARS-CoV-2 introductions occurred in the two-year epidemic period (March 2020 – September 2022) and a total of 930 introductions were associated with variants of concern namely Beta (n=78), Alpha(n=108), Delta(n=239) and Omicron (n=505). A total of 29 introductions were associated with A.23.1 variant that circulated in high frequencies in Uganda and Rwanda. The actual number of introductions is likely to be higher than these conservative estimates due to limited genomic sequencing. Our data suggested that cryptic transmission was usually underway prior to the first real-time identification of a new variant, and that multiple introductions were responsible. Following emergence of each VOC and subsequent introduction, transmission patterns were associated with hotspots of transmission in Coast, Nairobi and Western Kenya and follows established land and air transport corridors. Understanding the introduction and dispersal of major circulating variants and identifying the sources of new introductions is important to inform public health control strategies within Kenya and the larger East-African region. Border control and case finding reactive to new variants is unlikely to be a successful control strategy.
Publisher
Cold Spring Harbor Laboratory
Reference25 articles.
1. Temporal trends of SARS-CoV-2 seroprevalence during the first wave of the COVID-19 epidemic in Kenya;Nature Communications,2021 2. Transmission networks of SARS-CoV-2 in Coastal Kenya during the first two waves: a retrospective genomic study;eLife,2022 3. Agoti, C. N. , L. I. Ochola-Oyier , K. S. Mohammed , A. W. Lambisia , Z. R. de Laurent , J. M. Morobe , M. W. Mburu , D. O. Omuoyo , E. M. Ongera , L. Ndwiga , E. Maitha , B. Kitole , T. Suleiman , M. Mwakinangu , J. Nyambu , J. Otieno , B. Salim , J. Musyoki , N. Murunga , E. Otieno , J. Kiiru , K. Kasera , P. Amoth , M. Mwangangi , R. Aman , S. Kinyanjui , G. Warimwe , M. Phan , A. Agweyu , M. Cotten , E. Barasa , B. Tsofa , D. J. Nokes , P. Bejon and G. Githinji (2021). “Genomic surveillance reveals the spread patterns of SARS-CoV-2 in coastal Kenya during the first two waves.” medRxiv: 2021.2007.2001.21259583. 4. Brand, S. P. C. , J. Ojal , R. Aziza , V. Were , E. A. Okiro , I. K. Kombe , C. Mburu , M. Ogero Agweyu , G. M. Warimwe , J. Nyagwange , H. Karanja , J. N. Gitonga , D. Mugo , S. Uyoga , I. M. O. Adetifa , J. A. G. Scott , E. Otieno , N. Murunga , M. Otiende , L. I. Ochola-Oyier , C. N. Agoti , G. Githinji , K. Kasera , P. Amoth , M. Mwangangi , R. Aman , W. Ng’ang’a , B. Tsofa , P. Bejon , M. J. Keeling , D. J. Nokes and E. Barasa (2021). “COVID-19 Transmission Dynamics Underlying Epidemic Waves in Kenya.” medRxiv: 2021.2006.2017.21259100. 5. Increased transmissibility and global spread of SARS-CoV-2 variants of concern as at June 2021;Eurosurveillance,2021
Cited by
5 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献
|
|