Contribution of microbial genomics to cholera epidemiology.

Pub Date : 2022-05-11 DOI:10.5802/crbiol.77
Caroline Rouard, Elisabeth Njamkepo, Marie-Laure Quilici, François-Xavier Weill
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引用次数: 1

Abstract

In 2022, the burden of cholera-an acute watery diarrheal disease caused by Vibrio cholerae serogroup O1 (or more rarely O139) bacteria, which produce cholera toxin-remains high in many African and Asian countries. In the last few years, microbial genomics has made it possible to define the bacterial populations responsible for cholera more precisely. It has been shown that the current, seventh pandemic is due to a single lineage with a reservoir in the countries of the Bay of Bengal (India and Bangladesh). There have been several transmissions of the causal agent of cholera from this region to Africa, Asia and Latin America, suggesting a human-to-human transmission of the disease. Microbial genetics can help to fight this scourge by providing insight into cholera epidemiology and through its use in disease monitoring, thereby contributing to the achievement of the World Health Organization's goal of reducing cholera deaths by 90% by 2030.

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微生物基因组学对霍乱流行病学的贡献。
2022年,在许多非洲和亚洲国家,霍乱的负担仍然很高。霍乱是一种由产生霍乱毒素的霍乱弧菌血清群O1(或更罕见的O139)细菌引起的急性水样腹泻病。在过去的几年里,微生物基因组学使得更精确地确定导致霍乱的细菌种群成为可能。已经证明,目前的第七次大流行是由于在孟加拉湾国家(印度和孟加拉国)有一个水库的单一谱系造成的。霍乱病原体已从该地区多次传播到非洲、亚洲和拉丁美洲,这表明该疾病存在人际传播。微生物遗传学可通过深入了解霍乱流行病学并将其用于疾病监测,从而有助于防治这一祸害,从而有助于实现世界卫生组织到2030年将霍乱死亡人数减少90%的目标。
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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