Oropouche virus: transmission, epidemiology, genetic diversity, and public health implications

Lorenzo Subissi; James R. Otieno; Christopher Ruis; Ingrid Rabe; Anurag Agrawal; Laith Jamal Abu-Raddad; Esam I. Azhar; Martin Beer; Haroldo Bezerra; Leon Caly; Meera Chand; Ariamys Companioni; Tulio de Oliveira; Isabelle Dietrich; Christian Drosten; Pablo Duran; Nuno R. Faria; Adeola Fowotade; Lionel Gresh; Baoying Huang; Jason Kindrachuk; Marion P.G. Koopmans; Bette Korber; Yee Sin Leo; Placide Mbala-Kingebeni; Martina McMenamin; Nada M. Melhem; Vincent J. Munster; Bruno T.D. Nunes; Bas B. Oude Munnink; Felipe G. Naveca; Malik Peiris; Gustavo Palacios; Paola Resende; Angel Rodriguez; Senjuti Saha; Tadaki Suzuki; Andrea Vicari; Anne von Gottberg; Pragya Yadav; Jairo Mendez-Rico; Maria D. Van Kerkhove; Diana P. Rojas

doi:10.1016/j.eclinm.2026.103871

Oropouche virus: transmission, epidemiology, genetic diversity, and public health implications

Lorenzo Subissi
, James R. Otieno
, Christopher Ruis
, Ingrid Rabe
, Anurag Agrawal
, Laith Jamal Abu-Raddad
, Esam I. Azhar
, Martin Beer
, Haroldo Bezerra
, Leon Caly
, Meera Chand
, Ariamys Companioni
, Tulio de Oliveira
, Isabelle Dietrich
, Christian Drosten
, Pablo Duran
, Nuno R. Faria
, Adeola Fowotade
, Lionel Gresh
, Baoying Huang

Jason Kindrachuk, Marion P.G. Koopmans, Bette Korber, Yee Sin Leo, Placide Mbala-Kingebeni, Martina McMenamin, Nada M. Melhem, Vincent J. Munster, Bruno T.D. Nunes, Bas B. Oude Munnink, Felipe G. Naveca, Malik Peiris, Gustavo Palacios, Paola Resende, Angel Rodriguez, Senjuti Saha, Tadaki Suzuki, Andrea Vicari, Anne von Gottberg, Pragya Yadav, Jairo Mendez-Rico, Maria D. Van Kerkhove, Diana P. Rojas

Microbiology

Research output: Contribution to journal › Review article › peer-review

Abstract

SummaryHistorically endemic to parts of South America, Oropouche virus (OROV) has caused an estimated 500,000 infections since its discovery, with a marked geographic expansion beyond the Amazon basin into other regions of South America and the Caribbean since late 2023. This Review synthesises current evidence on OROV epidemiology, transmission dynamics, clinical manifestations, diagnostics, viral diversity, and public health impact, with the primary objective of identifying critical knowledge gaps and outlining priorities for surveillance, research, and control. Human transmission occurs primarily via Culicoides paraensis midges, while the competence of other vectors, the role of animal reservoirs in sustaining sylvatic transmission, and the contribution of vertical and sexual transmission remain incompletely understood. Although most infections are self-limiting, reports of neurological disease, Guillain-Barré syndrome, adverse pregnancy outcomes, and rare fatalities highlight uncertainties regarding pathogenicity, risk factors for severe disease, and long-term sequelae. The known teratogenicity of related Simbu serogroup orthobunyaviruses in animals further raises concerns about foetal risk in humans. Environmental change, expanding vector ranges, and viral evolution are likely contributing to outbreak emergence and geographic spread. Based on the available evidence, this review highlights priority gaps in epidemiological surveillance, diagnostics and genomic monitoring, vector competence and ecology, transmission pathways, and countermeasure development. Addressing these gaps through coordinated surveillance, improved laboratory capacity, targeted vector control, and focused research will be essential to mitigate the public health impact of OROV and reduce the risk of further spread.

Original language	English
Article number	103871
Journal	eClinicalMedicine
Volume	95
DOIs	https://doi.org/10.1016/j.eclinm.2026.103871
State	Published - May 2026

Keywords

Emerging arbovirus
Neurotropic virus
Oropouche fever
Oropouche virus
Orthobunyavirus
Simbu serogroup

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10.1016/j.eclinm.2026.103871

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Subissi, L., Otieno, J. R., Ruis, C., Rabe, I., Agrawal, A., Abu-Raddad, L. J., Azhar, E. I., Beer, M., Bezerra, H., Caly, L., Chand, M., Companioni, A., de Oliveira, T., Dietrich, I., Drosten, C., Duran, P., Faria, N. R., Fowotade, A., Gresh, L., ... Rojas, D. P. (2026). Oropouche virus: transmission, epidemiology, genetic diversity, and public health implications. eClinicalMedicine, 95, Article 103871. https://doi.org/10.1016/j.eclinm.2026.103871

@article{2bf67b42d62646119fbd287d6230c97f,

title = "Oropouche virus: transmission, epidemiology, genetic diversity, and public health implications",

abstract = "SummaryHistorically endemic to parts of South America, Oropouche virus (OROV) has caused an estimated 500,000 infections since its discovery, with a marked geographic expansion beyond the Amazon basin into other regions of South America and the Caribbean since late 2023. This Review synthesises current evidence on OROV epidemiology, transmission dynamics, clinical manifestations, diagnostics, viral diversity, and public health impact, with the primary objective of identifying critical knowledge gaps and outlining priorities for surveillance, research, and control. Human transmission occurs primarily via Culicoides paraensis midges, while the competence of other vectors, the role of animal reservoirs in sustaining sylvatic transmission, and the contribution of vertical and sexual transmission remain incompletely understood. Although most infections are self-limiting, reports of neurological disease, Guillain-Barr{\'e} syndrome, adverse pregnancy outcomes, and rare fatalities highlight uncertainties regarding pathogenicity, risk factors for severe disease, and long-term sequelae. The known teratogenicity of related Simbu serogroup orthobunyaviruses in animals further raises concerns about foetal risk in humans. Environmental change, expanding vector ranges, and viral evolution are likely contributing to outbreak emergence and geographic spread. Based on the available evidence, this review highlights priority gaps in epidemiological surveillance, diagnostics and genomic monitoring, vector competence and ecology, transmission pathways, and countermeasure development. Addressing these gaps through coordinated surveillance, improved laboratory capacity, targeted vector control, and focused research will be essential to mitigate the public health impact of OROV and reduce the risk of further spread.",

keywords = "Emerging arbovirus, Neurotropic virus, Oropouche fever, Oropouche virus, Orthobunyavirus, Simbu serogroup",

author = "Lorenzo Subissi and Otieno, \{James R.\} and Christopher Ruis and Ingrid Rabe and Anurag Agrawal and Abu-Raddad, \{Laith Jamal\} and Azhar, \{Esam I.\} and Martin Beer and Haroldo Bezerra and Leon Caly and Meera Chand and Ariamys Companioni and \{de Oliveira\}, Tulio and Isabelle Dietrich and Christian Drosten and Pablo Duran and Faria, \{Nuno R.\} and Adeola Fowotade and Lionel Gresh and Baoying Huang and Jason Kindrachuk and Koopmans, \{Marion P.G.\} and Bette Korber and Leo, \{Yee Sin\} and Placide Mbala-Kingebeni and Martina McMenamin and Melhem, \{Nada M.\} and Munster, \{Vincent J.\} and Nunes, \{Bruno T.D.\} and \{Oude Munnink\}, \{Bas B.\} and Naveca, \{Felipe G.\} and Malik Peiris and Gustavo Palacios and Paola Resende and Angel Rodriguez and Senjuti Saha and Tadaki Suzuki and Andrea Vicari and \{von Gottberg\}, Anne and Pragya Yadav and Jairo Mendez-Rico and \{Van Kerkhove\}, \{Maria D.\} and Rojas, \{Diana P.\}",

note = "Publisher Copyright: {\textcopyright} 2026 Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license. http://creativecommons.org/licenses/by-nc-nd/4.0/",

year = "2026",

month = may,

doi = "10.1016/j.eclinm.2026.103871",

language = "English",

volume = "95",

journal = "eClinicalMedicine",

issn = "2589-5370",

publisher = "Elsevier Ltd.",

}

Subissi, L, Otieno, JR, Ruis, C, Rabe, I, Agrawal, A, Abu-Raddad, LJ, Azhar, EI, Beer, M, Bezerra, H, Caly, L, Chand, M, Companioni, A, de Oliveira, T, Dietrich, I, Drosten, C, Duran, P, Faria, NR, Fowotade, A, Gresh, L, Huang, B, Kindrachuk, J, Koopmans, MPG, Korber, B, Leo, YS, Mbala-Kingebeni, P, McMenamin, M, Melhem, NM, Munster, VJ, Nunes, BTD, Oude Munnink, BB, Naveca, FG, Peiris, M, Palacios, G, Resende, P, Rodriguez, A, Saha, S, Suzuki, T, Vicari, A, von Gottberg, A, Yadav, P, Mendez-Rico, J, Van Kerkhove, MD & Rojas, DP 2026, 'Oropouche virus: transmission, epidemiology, genetic diversity, and public health implications', eClinicalMedicine, vol. 95, 103871. https://doi.org/10.1016/j.eclinm.2026.103871

TY - JOUR

T1 - Oropouche virus

T2 - transmission, epidemiology, genetic diversity, and public health implications

AU - Subissi, Lorenzo

AU - Otieno, James R.

AU - Ruis, Christopher

AU - Rabe, Ingrid

AU - Agrawal, Anurag

AU - Abu-Raddad, Laith Jamal

AU - Azhar, Esam I.

AU - Beer, Martin

AU - Bezerra, Haroldo

AU - Caly, Leon

AU - Chand, Meera

AU - Companioni, Ariamys

AU - de Oliveira, Tulio

AU - Dietrich, Isabelle

AU - Drosten, Christian

AU - Duran, Pablo

AU - Faria, Nuno R.

AU - Fowotade, Adeola

AU - Gresh, Lionel

AU - Huang, Baoying

AU - Kindrachuk, Jason

AU - Koopmans, Marion P.G.

AU - Korber, Bette

AU - Leo, Yee Sin

AU - Mbala-Kingebeni, Placide

AU - McMenamin, Martina

AU - Melhem, Nada M.

AU - Munster, Vincent J.

AU - Nunes, Bruno T.D.

AU - Oude Munnink, Bas B.

AU - Naveca, Felipe G.

AU - Peiris, Malik

AU - Palacios, Gustavo

AU - Resende, Paola

AU - Rodriguez, Angel

AU - Saha, Senjuti

AU - Suzuki, Tadaki

AU - Vicari, Andrea

AU - von Gottberg, Anne

AU - Yadav, Pragya

AU - Mendez-Rico, Jairo

AU - Van Kerkhove, Maria D.

AU - Rojas, Diana P.

PY - 2026/5

Y1 - 2026/5

N2 - SummaryHistorically endemic to parts of South America, Oropouche virus (OROV) has caused an estimated 500,000 infections since its discovery, with a marked geographic expansion beyond the Amazon basin into other regions of South America and the Caribbean since late 2023. This Review synthesises current evidence on OROV epidemiology, transmission dynamics, clinical manifestations, diagnostics, viral diversity, and public health impact, with the primary objective of identifying critical knowledge gaps and outlining priorities for surveillance, research, and control. Human transmission occurs primarily via Culicoides paraensis midges, while the competence of other vectors, the role of animal reservoirs in sustaining sylvatic transmission, and the contribution of vertical and sexual transmission remain incompletely understood. Although most infections are self-limiting, reports of neurological disease, Guillain-Barré syndrome, adverse pregnancy outcomes, and rare fatalities highlight uncertainties regarding pathogenicity, risk factors for severe disease, and long-term sequelae. The known teratogenicity of related Simbu serogroup orthobunyaviruses in animals further raises concerns about foetal risk in humans. Environmental change, expanding vector ranges, and viral evolution are likely contributing to outbreak emergence and geographic spread. Based on the available evidence, this review highlights priority gaps in epidemiological surveillance, diagnostics and genomic monitoring, vector competence and ecology, transmission pathways, and countermeasure development. Addressing these gaps through coordinated surveillance, improved laboratory capacity, targeted vector control, and focused research will be essential to mitigate the public health impact of OROV and reduce the risk of further spread.

AB - SummaryHistorically endemic to parts of South America, Oropouche virus (OROV) has caused an estimated 500,000 infections since its discovery, with a marked geographic expansion beyond the Amazon basin into other regions of South America and the Caribbean since late 2023. This Review synthesises current evidence on OROV epidemiology, transmission dynamics, clinical manifestations, diagnostics, viral diversity, and public health impact, with the primary objective of identifying critical knowledge gaps and outlining priorities for surveillance, research, and control. Human transmission occurs primarily via Culicoides paraensis midges, while the competence of other vectors, the role of animal reservoirs in sustaining sylvatic transmission, and the contribution of vertical and sexual transmission remain incompletely understood. Although most infections are self-limiting, reports of neurological disease, Guillain-Barré syndrome, adverse pregnancy outcomes, and rare fatalities highlight uncertainties regarding pathogenicity, risk factors for severe disease, and long-term sequelae. The known teratogenicity of related Simbu serogroup orthobunyaviruses in animals further raises concerns about foetal risk in humans. Environmental change, expanding vector ranges, and viral evolution are likely contributing to outbreak emergence and geographic spread. Based on the available evidence, this review highlights priority gaps in epidemiological surveillance, diagnostics and genomic monitoring, vector competence and ecology, transmission pathways, and countermeasure development. Addressing these gaps through coordinated surveillance, improved laboratory capacity, targeted vector control, and focused research will be essential to mitigate the public health impact of OROV and reduce the risk of further spread.

KW - Emerging arbovirus

KW - Neurotropic virus

KW - Oropouche fever

KW - Oropouche virus

KW - Orthobunyavirus

KW - Simbu serogroup

UR - https://www.scopus.com/pages/publications/105036025784

U2 - 10.1016/j.eclinm.2026.103871

DO - 10.1016/j.eclinm.2026.103871

M3 - Review article

AN - SCOPUS:105036025784

SN - 2589-5370

VL - 95

JO - eClinicalMedicine

JF - eClinicalMedicine

M1 - 103871

ER -

Oropouche virus: transmission, epidemiology, genetic diversity, and public health implications

Abstract

Keywords

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