Heterogenous transmission and seroprevalence of SARS-CoV-2 in two demographically diverse populations with low vaccination uptake in Kenya, March and June 2021

Patrick K. Munywoki, Godfrey Bigogo, Carolyne Nasimiyu, Alice Ouma, George Aol, Clifford O. Oduor, Samuel Rono, Joshua Auko, George O. Agogo, Ruth Njoroge, Dismas Oketch, Dennis Odhiambo, Victor W. Odeyo, Gilbert Kikwai, Clayton Onyango, Bonventure Juma, Elizabeth Hunsperger, Shirley Lidechi, Caroline Apondi Ochieng, Terrence Q. Lo, Peninah Munyua, Amy Herman-Roloff
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Abstract

Background: SARS-CoV-2 has extensively spread in cities and rural communities, and studies are needed to quantify exposure in the population. We report seroprevalence of SARS-CoV-2 in two well-characterized populations in Kenya at two time points. These data inform the design and delivery of public health mitigation measures. Methods: Leveraging on existing population based infectious disease surveillance (PBIDS) in two demographically diverse settings, a rural site in western Kenya in Asembo, Siaya County, and an urban informal settlement in Kibera, Nairobi County, we set up a longitudinal cohort of randomly selected households with serial sampling of all consenting household members in March and June 2021. Both sites included 1,794 and 1,638 participants in March and June 2021, respectively. Individual seroprevalence of SARS-CoV-2 antibodies was expressed as a percentage of the seropositive among the individuals tested, accounting for household clustering and weighted by the PBIDS age and sex distribution. Results: Overall weighted individual seroprevalence increased from 56.2% (95%CI: 52.1, 60.2%) in March 2021 to 63.9% (95%CI: 59.5, 68.0%) in June 2021 in Kibera. For Asembo, the seroprevalence almost doubled from 26.0% (95%CI: 22.4, 30.0%) in March 2021 to 48.7% (95%CI: 44.3, 53.2%) in July 2021. Seroprevalence was highly heterogeneous by age and geography in these populations—higher seroprevalence was observed in the urban informal settlement (compared to the rural setting), and children aged <10 years had the lowest seroprevalence in both sites. Only 1.2% and 1.6% of the study participants reported receipt of at least one dose of the COVID-19 vaccine by the second round of serosurvey—none by the first round. Conclusions: In these two populations, SARS-CoV-2 seroprevalence increased rapidly in the first 16 months of the COVID-19 pandemic in Kenya. It is important to prioritize additional mitigation measures, such as vaccine distribution, in crowded and low socioeconomic settings.
2021年3月和6月,肯尼亚两个人口统计学上不同且疫苗接种率低的人群中SARS-CoV-2的异质性传播和血清阳性率
背景:SARS-CoV-2在城市和农村社区广泛传播,需要研究量化人群中的暴露情况。我们报告了在肯尼亚两个时间点两个特征良好的人群中SARS-CoV-2的血清流行率。这些数据为公共卫生缓解措施的设计和实施提供了信息。方法:利用现有的基于人口的传染病监测(PBIDS),在两个人口不同的环境中,肯尼亚西部Siaya县Asembo的农村站点和内罗毕县Kibera的城市非正式定居点,我们建立了一个纵向队列,随机选择家庭,并于2021年3月和6月对所有同意的家庭成员进行连续抽样。这两个网站在2021年3月和6月分别有1794名和1638名参与者。SARS-CoV-2抗体的个体血清阳性率表示为测试个体中血清阳性的百分比,考虑到家庭聚类并按PBIDS年龄和性别分布加权。结果:基贝拉的总体加权个体血清阳性率从2021年3月的56.2% (95%CI: 52.1, 60.2%)上升到2021年6月的63.9% (95%CI: 59.5%, 68.0%)。对于Asembo,血清患病率几乎翻了一番,从2021年3月的26.0% (95%CI: 22.4%, 30.0%)到2021年7月的48.7% (95%CI: 44.3%, 53.2%)。在这些人群中,血清阳性率因年龄和地理位置的不同而存在高度差异——在城市非正规住区(与农村环境相比)观察到较高的血清阳性率,在这两个地点,10岁儿童的血清阳性率最低。只有1.2%和1.6%的研究参与者报告在第二轮血清调查中至少接种了一剂COVID-19疫苗,而在第一轮血清调查中没有接种。结论:在这两个人群中,SARS-CoV-2血清阳性率在肯尼亚COVID-19大流行的前16个月迅速上升。在拥挤和低社会经济环境中,必须优先考虑其他缓解措施,例如分发疫苗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Gates Open Research
Gates Open Research Immunology and Microbiology-Immunology and Microbiology (miscellaneous)
CiteScore
3.60
自引率
0.00%
发文量
90
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