Although Oropouche virus (OROV) has been circulating in Central and South America for the last decade, only in 2024, more than 10,000 confirmed cases of Oropouche fever have been reported in different countries of the Americas, mainly Brazil, Peru, Cuba, Bolivia and Colombia.1 The first two imported cases in Europe were detected in Italy in May and June, 2024 in travelers returning from Cuba.2 Since then, several cases in non-endemic regions have been reported.1,3 A high level of suspicion in travelers returning from these areas is crucial, since there have been fatal cases reported, as well as vertical transmission with derived fetal malformations.4 However, surveillance of OROV infections in travelers with dengue-like symptoms is not regularly performed and clinical and microbiological information in this population is still scarce.2,5

In the present study, we aimed to detect all imported cases of OROV disease in travelers returning from endemic areas visiting the International Traveler's Health Clinic (Hospital Clinic in Barcelona) from March to October 2024 and to describe its detailed clinical and microbiological presentation.

From March to October 2024, travelers returning from Central and South America with a dengue-like symptoms and negative results for dengue, Chikungunya and Zika viruses were screened for OROV. Samples collected for OROV detection included serum, urine and saliva. All samples were extracted using a semi-automated system (magLEAD 12gC, Precision System Science Co, Ltd, Matsudo, Japan) and were tested with a multiplex reverse transcription real-time reverse transcription PCR (RT-PCR) for simultaneous detection of OROV and Mayaro virus.6

Detailed information regarding the clinical presentation and blood test results, was collected from patients diagnosed with OROV. In patients with positive results, serial samples were collected in order to determine the usefulness of molecular detection and viral shedding in different samples.

Finally, we conducted a narrative literature review to describe the clinical presentation, laboratory and microbiological characteristics of OROV cases in non-endemic areas.

Significant circulation of OROV has been reported in Brazil, Colombia, Ecuador, French Guiana, Panama, Peru, and Trinidad and Tobago for the last decades.1 The identification of this case, along with the two previously reported in Italy,2 and other cases in Europe and North America,1,3,5 highlights the increasing spread of OROV in endemic areas.8 This fact and the recent reports on fatal cases and potential vertical transmission of OROV underscores the need for heightened clinical awareness and the availability of diagnostic tools for surveillance of OROV in travelers returning from OROV endemic areas.

The non-specific clinical presentation, a scarce knowledge of the disease, and a limited availability of reliable diagnostic tools are some of the challenges in diagnosing OROV infections.9 In areas where co-infection with other arbovirus for which we have better diagnostic tests is endemic, the challenge complicates even further.10 In this context, a high level of clinical suspicion is crucial. However, comprehensive insights into the disease's clinical course remain limited. Our case presented acute febrile illness after an incubation period of 4 days, which is within the typical 3–8-day range for OROV infection.9 The patient exhibited two well differentiated symptomatic periods, which we suggest could be a biphasic presentation, with tactile allodynia and hyperalgesia during the second phase.

In Oropouche fever, symptom recurrence has been reported in approximately 60–70% of cases. Although these recurrences are more common within the first 10 days after the initial onset of symptoms, they can occur up to 3 weeks later.9 In non-endemic regions, biphasic presentation has been reported only in 3 out of 20 (15%) US travelers.5 In our case OROV infection couldn’t be confirmed during the initial symptoms and, therefore, the possibility of two different infections causing the symptoms of the patient cannot be completely ruled out. However, the recurrence of nearly identical symptoms in both phases (except for the neurological symptoms), the compatible times of each phase and the time period between the two phases, and the absence of detectable OROV in serum during the second febrile episode strongly suggest a biphasic course of Oropouche fever.9

Neurotropism is a common characteristic among several arboviruses such as Japanese encephalitis virus, tick-borne encephalitis virus, Zika virus and West-Nile virus, among others.11,12 Neurological manifestations in OROV infections include headache, dizziness, lethargy, diplopia, nystagmus, ataxia, meningitis, encephalitis and focal neurological symptoms.2,9 They have been mainly reported during large outbreaks in endemic areas but also in travelers.2,9 Interestingly, OROV neuroinvasion of the central nervous system has been observed in animal models even without neurological symptoms, highlighting the significant neurotropism of OROV.13 Finally, although biphasic fever and neurological symptoms have been previously described2,5 in other arboviral diseases, they are rarely reported in travelers with dengue-like illnesses and might help raising the clinical suspicion of OROV infection.14 Further studies allowing a better characterization of the clinical presentation of OROV infections compared to other arboviral infections are crucial to confirm these hypotheses.

Little is known about the performance of molecular diagnostic tests from clinical samples for OROV. The virus can be detected in serum, urine and cerebrospinal fluid.9 To our knowledge, positive RT-PCR tests in urine had been reported only up to 19 days after the onset of symptoms, in a traveler returning from Cuba.15 Thus, our case represents the first report detecting OROV RNA in urine more than 4 weeks after the onset of symptoms. Prolonged shedding in urine has also been reported in other arboviruses such as dengue and Zika viruses.16,17 Larger studies should be performed to ascertain whether urine may represent a relevant diagnostic sample for OROV infections.

Our report, along with the other OROV imported cases reported, highlights the importance of being aware of OROV disease in travelers returning from areas with current circulation of OROV with dengue-like symptoms but with negative diagnostic tests for dengue, especially when presenting with biphasic fever or neurological symptoms. Viral detection of OROV in urine could be a useful tool for the diagnosis of OROV infection at late stages of the disease.

The patient signed an informed consent allowing the collection and analysis of additional clinical samples and the publication of the case. The study was designed in compliance with Good Clinical Practice and following the Declaration of Helsinki.

The ISGlobal authors acknowledge support from the grant number CEX2023-0001290-S funded by MCIN/AEI/10.13039/501100011033, and support from the Generalitat de Catalunya through the CERCA Program, CIBER-Consorcio Centro de Investigación Biomédica en Red (CB 2021), Instituto de Salud Carlos III, Ministerio de Ciencia e Innovación and Unión Europea and support from the Generalitat de Catalunya through the CERCA Program.

None declared.