Travel-associated international spread of Oropouche virus beyond the Amazon.

IF 9.1 2区医学 Q1 INFECTIOUS DISEASES

Journal of travel medicine Pub Date : 2025-03-30 DOI:10.1093/jtm/taaf018

Felipe Campos de Melo Iani, Felicidade Mota Pereira, Elaine Cristina de Oliveira, Janete Taynã Nascimento Rodrigues, Mariza Hoffmann Machado, Vagner Fonseca, Talita Emile Ribeiro Adelino, Natália Rocha Guimarães, Luiz Marcelo Ribeiro Tomé, Marcela Kelly Astete Gómez, Vanessa Brandão Nardy, Adriana Aparecida Ribeiro, Alexander Rosewell, Álvaro Gil A Ferreira, Arabela Leal E Silva de Mello, Brenda Machado Moura Fernandes, Carlos Frederico Campelo de Albuquerque, Dejanira Dos Santos Pereira, Eline Carvalho Pimentel, Fábio Guilherme Mesquita Lima, Fernanda Viana Moreira Silva, Glauco de Carvalho Pereira, Houriiyah Tegally, Júlia Deffune Profeta Cidin Almeida, Keldenn Melo Farias Moreno, Klaucia Rodrigues Vasconcelos, Leandro Cavalcante Santos, Lívia Cristina Machado Silva, Livia C V Frutuoso, Ludmila Oliveira Lamounier, Mariana Araújo Costa, Marília Santini de Oliveira, Marlei Pickler Dediasi Dos Anjos, Massimo Ciccozzi, Maurício Teixeira Lima, Maira Alves Pereira, Marília Lima Cruz Rocha, Paulo Eduardo de Souza da Silva, Peter M Rabinowitz, Priscila Souza de Almeida, Richard Lessells, Ricardo T Gazzinelli, Rivaldo Venâncio da Cunha, Sabrina Gonçalves, Sara Cândida Ferreira Dos Santos, Senele Ana de Alcântara Belettini, Silvia Helena Sousa Pietra Pedroso, Sofia Isabel Rótulo Araújo, Stephanni Figueiredo da Silva, Julio Croda, Ethel Maciel, Wes Van Voorhis, Darren P Martin, Edward C Holmes, Tulio de Oliveira, José Lourenço, Luiz Carlos Junior Alcantara, Marta Giovanetti

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引用次数: 0

Abstract

Oropouche virus (OROV), first detected in Trinidad and Tobago in 1955, was historically confined to the Brazilian Amazon Basin. However, since late 2022, an increasing number of OROV cases have been reported across various regions of Brazil as well as in urban centers in Bolivia, Ecuador, Guyana, Colombia, Cuba, Panama, and Peru. In collaboration with Central Public Health Laboratories across Brazil, we integrated epidemiological metadata with genomic analyses from recent cases, generating 133 whole-genome sequences covering the virus's three genomic segments (L, M, and S). These include the first genomes from regions outside the Amazon and from the first recorded fatal cases. Phylogenetic analyses show that the 2024 OROV genomes form a monophyletic group with sequences from the Amazon Basin sampled since 2022, revealing a rapid north-to-south viral movement into historically non-endemic areas. We identified 21 reassortment events, though it remains unclear whether these genomic changes have facilitated viral adaptation to local ecological conditions or contributed to phenotypic traits of public health significance. Our findings demonstrate how OROV has evolved through reassortment and spread rapidly across multiple states in Brazil, leading to the largest outbreak ever recorded outside the Amazon and the first confirmed fatalities. Additionally, by analysing travel-related cases, we provide the first insights into the international spread of OROV beyond Brazil, further highlighting the role of human mobility in its dissemination. The virus's recent rapid geographic expansion and the emergence of severe cases emphasize the urgent need for enhanced surveillance across the Americas. In the absence of significant human population changes over the past two years, factors such as viral adaptation, deforestation, and climate shifts-either individually or in combination-may have facilitated the spread of OROV beyond the Amazon Basin through both local and travel-associated transmission.

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欧罗波切病毒在亚马逊以外地区的旅行相关国际传播。

Oropouche病毒于1955年在特立尼达和多巴哥首次发现，历史上仅限于巴西亚马逊盆地。然而，自2022年底以来，在巴西各地区以及玻利维亚、厄瓜多尔、圭亚那、哥伦比亚、古巴、巴拿马和秘鲁的城市中心报告的OROV病例越来越多。我们与巴西各地的中央公共卫生实验室合作，将流行病学元数据与近期病例的基因组分析相结合，生成了133个全基因组序列，涵盖了病毒的三个基因组片段（L、M和S）。这些基因组包括来自亚马逊以外地区的第一批基因组和来自首次记录的致命病例的基因组。系统发育分析表明，2024年的OROV基因组与亚马逊流域自2022年以来采样的序列形成一个单系群，揭示了病毒从北向南快速移动到历史上非流行地区。我们确定了21个重配事件，尽管尚不清楚这些基因组变化是否促进了病毒对当地生态条件的适应，还是促成了具有公共卫生意义的表型特征。我们的研究结果表明，OROV是如何通过重组进化的，并在巴西的多个州迅速传播，导致亚马逊以外有史以来最大的疫情爆发，并首次确认死亡。此外，通过分析与旅行相关的病例，我们首次深入了解了OROV在巴西以外的国际传播，进一步强调了人类流动性在其传播中的作用。该病毒最近在地理上的迅速扩张和严重病例的出现，强调迫切需要在整个美洲加强监测。在过去两年没有显著的人口变化的情况下，病毒适应、森林砍伐和气候变化等因素——无论是单独的还是联合的——都可能通过当地和旅行相关的传播促进了OROV在亚马逊盆地以外的传播。

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

Journal of travel medicine 医学-医学：内科

CiteScore

20.90

自引率

5.10%

发文量

143

审稿时长

6-12 weeks

期刊介绍： The Journal of Travel Medicine is a publication that focuses on travel medicine and its intersection with other disciplines. It publishes cutting-edge research, consensus papers, policy papers, and expert reviews. The journal is affiliated with the Asia Pacific Travel Health Society. The journal's main areas of interest include the prevention and management of travel-associated infections, non-communicable diseases, vaccines, malaria prevention and treatment, multi-drug resistant pathogens, and surveillance on all individuals crossing international borders. The Journal of Travel Medicine is indexed in multiple major indexing services, including Adis International Ltd., CABI, EBSCOhost, Elsevier BV, Gale, Journal Watch Infectious Diseases (Online), MetaPress, National Library of Medicine, OCLC, Ovid, ProQuest, Thomson Reuters, and the U.S. National Library of Medicine.