轮状病毒在疫苗引入前后在东非和南非国家的株系多样性。

Rotavirus strain diversity in Eastern and Southern African countries before and after vaccine introduction.

机构信息

South African Medical Research Council/Diarrhoeal Pathogens Research Unit, Department of Virology, Sefako Makgatho Health Sciences University, Pretoria, South Africa.

出版信息

Vaccine. 2018 Nov 12;36(47):7222-7230. doi: 10.1016/j.vaccine.2017.11.068. Epub 2017 Dec 2.

DOI:10.1016/j.vaccine.2017.11.068

PMID:29203181

Abstract

BACKGROUND

The African Rotavirus Surveillance Network has been detecting and documenting rotavirus genotypes in the African sub-continent since 1998 in anticipation of the rollout of rotavirus vaccination in routine Expanded Programme on Immunisation. This paper reports distribution of the rotavirus strains circulating in 15 Eastern and Southern African (ESA) countries from 2010-2015 as part of active World Health Organization (WHO) rotavirus surveillance, and investigates possibility of emergence of non-vaccine or unusual strains in six selected countries post-vaccine introduction.

MATERIAL AND METHODS

Stool samples were collected from children <5 years of age presenting with acute gastroenteritis at sentinel hospitals pre- and post-rotavirus vaccine introduction. Samples were tested for group A rotavirus using an enzyme immunoassay by the national and sentinel laboratories. At the WHO Rotavirus Regional Reference Laboratory in South Africa, molecular characterisation was determined by PAGE (n = 4186), G and P genotyping (n = 6447) and DNA sequencing for both G and P types (n = 400).

RESULTS

The six-year surveillance period demonstrated that 23.8% of the strains were G1P[8], followed by G2P[4] (11.8%), G9P[8] (10.4%), G12P[8] (4.9%), G2P[6] (4.2%) and G3P[6] (3.7%) in 15 ESA countries. There was no difference in circulating strains pre- and post-rotavirus vaccine introduction with yearly fluctuation of strains observed over time. Atypical rotavirus G and P combinations (such as G1P[4], G2P[8], G9P[4] and G12P[4]) that might have arisen through inter-genogroup or inter-genotypes reassortment were detected at low frequency (2%). Close genetic relationship of African strains were reflected on the phylogenetic analysis, strains segregated together to form an African cluster in the same lineages/sub-lineage or monophyletic branch.

CONCLUSION

There has been considerable concern about strain replacement post-vaccine introduction, it was not clear at this early stage whether observed cyclical changes of rotavirus strains were due to vaccine pressure or this was just part of natural annual fluctuations in the six ESA countries, long-term surveillance is required.

摘要

背景

自 1998 年以来，非洲轮状病毒监测网络一直在非洲次大陆检测和记录轮状病毒基因型，以期在扩大免疫规划中推出轮状病毒疫苗。本文报告了 2010 年至 2015 年期间，15 个东非和南非（ESA）国家中循环的轮状病毒株的分布情况，这是世界卫生组织（WHO）积极开展的轮状病毒监测的一部分，并调查了六个选定国家在引入疫苗后是否出现非疫苗或不寻常的菌株。

材料和方法

在轮状病毒疫苗引入前后，从 5 岁以下患有急性肠胃炎的哨点医院儿童中采集粪便样本。国家和哨点实验室采用酶联免疫吸附试验检测轮状病毒 A 群。在南非的世界卫生组织轮状病毒区域参考实验室，通过 PAGE（n=4186）、G 和 P 基因分型（n=6447）以及 G 和 P 型的 DNA 测序（n=400）确定分子特征。

结果

六年监测期间，15 个 ESA 国家中，23.8%的菌株为 G1P[8]，其次为 G2P[4]（11.8%）、G9P[8]（10.4%）、G12P[8]（4.9%）、G2P[6]（4.2%）和 G3P[6]（3.7%）。轮状病毒疫苗引入前后流行株无差异，随着时间的推移，每年均有流行株波动。通过基因间重组或基因间重组检测到低频率的非典型轮状病毒 G 和 P 组合（如 G1P[4]、G2P[8]、G9P[4]和 G12P[4]）（2%）。非洲株系的遗传关系密切，在系统发育分析中，株系聚集在一起，在同一谱系/亚谱系或单系分支中形成一个非洲群。

结论

疫苗引入后出现了明显的菌株替代现象，目前尚不清楚观察到的轮状病毒株的周期性变化是由于疫苗压力还是这只是六个 ESA 国家自然年度波动的一部分，需要进行长期监测。

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轮状病毒在疫苗引入前后在东非和南非国家的株系多样性。

Rotavirus strain diversity in Eastern and Southern African countries before and after vaccine introduction.

机构信息

出版信息

BACKGROUND

MATERIAL AND METHODS

RESULTS

CONCLUSION

背景

材料和方法

结果

结论

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