key: cord-0839820-9pethntd authors: Plasencia‐Dueñas, Rubí; Failoc‐Rojas, Virgilio E.; Rodriguez‐Morales, Alfonso J. title: Impact of the COVID‐19 pandemic on the incidence of dengue fever in Peru date: 2021-09-01 journal: J Med Virol DOI: 10.1002/jmv.27298 sha: 7507aa697ecf431958d3ef77fb0c757661981982 doc_id: 839820 cord_uid: 9pethntd Dengue virus and severe acute respiratory syndrome coronavirus 2 coexist in dengue‐endemic countries; therefore, the adoption of preventive measures is essential to control the spread of both viruses. We conducted an ecological study to compare the temporal patterns of the incidence of dengue before and during the Coronavirus disease 2019 (COVID‐19) pandemic in Peru. A time‐series analysis comparing the incidence of dengue using a Student's t test with variance correction was performed. Poisson regression was applied to determine the incidence rate ratio (IRR) of dengue before and during the COVID‐19 pandemic. The incidence of dengue was found to be increased in all endemic regions of Peru during the COVID‐19 pandemic, with the highest incidences registered in Ica (IRR = 90.14), Huánuco (IRR = 38.6), and Ucayali (IRR = 23.78), with the exception of Piura (IRR = 0.83). The highest increases in the number of dengue cases per million inhabitants were in Ucayali (393.38), Tumbes (233.19), Ica (166.08), and Loreto (129.93). The gradient of dengue cases was positive in all endemic regions during the COVID‐19 pandemic. The number of dengue cases per million increased during the COVID‐19 pandemic throughout Peru and in several endemic regions, with the exception of Piura. dengue using a Student's t test with variance correction was performed. Poisson regression was applied to determine the incidence rate ratio (IRR) of dengue before and during the COVID-19 pandemic. The incidence of dengue was found to be increased in all endemic regions of Peru during the COVID-19 pandemic, with the highest incidences registered in Ica (IRR = 90.14), Huánuco (IRR = 38. 6 causes 400 million cases of dengue fever worldwide every year. In the word, most cases are mild or asymptomatic, and only 100 million cases are clinically symptomatic, of which half a million require hospitalization. 1 Dengue can be misdiagnosed as other febrile illnesses, resulting in an underestimation of the actual number of cases. 2 As there is no specific treatment for this disease, only early diagnosis and access to immediate medical attention allow for the timely management of the disease, thereby preventing its progression to a serious stage and/or death. 1 Due to epidemics, other public health issues such as dengue have been neglected in Peru due to the excessive prioritization of the prevention and control of these new diseases. 3, 4 In March 2020, the World Health Organization (WHO) declared coronavirus disease 2019 (COVID-19) a pandemic caused by the severe acute respiratory syndrome coronavirus type 2 (SARS-CoV-2). 5 The Americas have reported the highest number of cases to date. 6 However, Latin America and the Caribbean continue to experience dengue epidemics that cause a large medical, human, and economic burden, which is why they should not be ignored. 7 Currently, both viruses coexist in dengue-endemic countries, and it may be difficult to differentiate one from the other because both diseases share identical clinical symptoms, 8 and laboratory results. 9 The trends of COVID-19 and dengue analyzed in other countries have allowed us to reflect upon the relevance of adopting preventive measures necessary to control the spread of both diseases 8,10-12 The purpose of this study was to compare the temporal pattern of dengue incidences before and during the COVID-19 pandemic in Peru. An ecological study was conducted using secondary data sources. Data on the number of dengue cases were obtained from the virtual Health Situation Room of the Centro Nacional de Epidemiología, Prevención y Control de Enfermedades, CDC, Peru (National Center for Epidemiology, Prevention and Disease Control, CDC, Peru) (available at https://www.dge.gob.pe/salasituacional/). This database contains the updated epidemiological information necessary to understand the healthcare situation and trends of diseases subject to epidemiological surveillance to guide, prioritize, and focus healthcare interventions by national, regional, and local authorities for the control of the health problems identified. Kendall Tau test was performed to determine whether the series is stationary. The partial autocorrelation function was used to determine the existence of any temporal dependence of the number of dengue cases at a given time as opposed to previous periods. To estimate the average incidence of dengue (cases per million) before and during the COVID-19 pandemic, Student's t test was used with correction of variances, and Poisson regression was applied to compare the incidence of dengue before and during the COVID-19 pandemic, obtaining an incidence rate ratio (IRR) crude and IRR adjusted for temperature and humidity. Moreover, 95% confidence intervals (CIs) and p values were calculated. This study did not require the approval of an ethics committee as it was an analysis of secondary aggregate data obtained from an openaccess public domain that does not allow for the identification of the cases assessed. In 2020, the total number of dengue cases was 895 in the depart- The results of this study suggest that the variability in the number of dengue cases in Peru and its endemic regions during the years 2018-2020 was influenced by seasonal drivers. The upward trend coincides with the rainy season in the Amazon regions and with the summer on the coast. 13 There was no autocorrelation between the number of cases in a given epidemiological week and that in any previous week. This is consistent with previous findings in China, where the majority of cases increase in the epidemiological weeks of summer and where the number of dengue cases in a certain month is related to that in the previous month. 14 We observed that since the first case of COVID-19 was reported in Peru, there has been a decrease in the number of dengue cases reported in several endemic regions of Peru. This temporal pattern is consistent with findings in Brazil. 15 This could be due to the fact that the epidemiological alert triggered by an increase in the number of COVID-19 cases in Peru has affected the epidemiological surveillance of dengue, resulting in an underreporting of dengue cases, as has also occurred in recent epidemics, where the excessive prioritization of the prevention and control of emerging diseases has led to the unintentional neglect of endemic diseases. 4 Dengue virus is transported mainly by infected travelers. 1 Therefore, social isolation, quarantine, and other preventive measures that were implemented in Peru to counteract the progression of COVID-19 could have generated a real decrease in the incidence of dengue. 11, 15 In contrast, difficulty in access to timely diagnosis together with the population's concern about the risk of being infected with COVID-19 in healthcare facilities may be another reason for the decrease in the number of dengue cases reported at the beginning of the COVID-19 pandemic. 16 Similarly, until July 2020, in the West Pacific region, countries such as China, Malaysia, Vietnam, and Australia registered fewer cases of dengue compared with that in the same period in 2019. 17 Moreover, in the Americas, data registered up to epidemiological week 21, 2020, show a reduction by approximately 10% compared with that in 2019. 18 Countries such as Bolivia, Honduras, Mexico, Paraguay, and Brazil reported a large increase in the number of dengue cases during the first weeks of 2020, 11, 15, 19 which abruptly decreased subsequently, coinciding with the exponential increase in the number of COVID 19 cases. 11, 15 The findings of our study also demonstrate that the number of dengue cases per million inhabitants during the COVID-19 pandemic T A B L E 1 Incidence of dengue and cases per million inhabitants during the COVID-19 pandemic in endemic regions of Peru Previous studies found difficulties in the correct diagnosis of dengue and COVID-19 cases because both diseases share similar clinical symptoms, which is why coinfection in endemic areas is very likely to occur. 9, 23 An increase in the incidence of dengue and other arboviral diseases poses a real threat during the COVID-19 pandemic 24 because it could lead to the overburdening of health systems. During the Phenomenon Niño Costero 2017 in Peru, Piura was the region that reported 64% of all dengue cases nationwide, being the region with the highest incidence rate in the country. 25 This generated a high natural immunization of its population, which could explain the decrease in the incidence of dengue in the following years, even during the COVID-19 era. In addition, Piura is the only region where DENV-2 and DENV-3 are circulating, although all four dengue serotypes are currently circulating throughout the country, with DENV-1 and DENV-2 circulating in the regions of Loreto, Ucayali, Tumbes, and Lambayeque, and only DENV-2 in Junin and Huánuco. 13 The limitations of this study mainly relate to Peru having a passive surveillance system, and therefore, the results could have a selection bias, which could result in their underestimation. Furthermore, being an ecological study, no inferences can be made at the individual level (ecological fallacy). In conclusion, the number of dengue cases per million has increased during the COVID-19 pandemic throughout Peru and in several endemic regions, with the exception of Piura, where it has decreased. The entire country has experienced an increased incidence during the COVID-19 pandemic compared with the incidence before the COVID-19 pandemic. However, Huánuco, Ica, and Ucayali are the regions with the highest increase. Coepidemics of COVID-19 and dengue in endemic areas, especially in Latin America and Southeast Asia, constitute a health, economic, and social burden. Therefore, it is important to apply vector control measures in conjunction with those established to prevent COVID-19, as well as measures that allow for the timely and adequate deployment of health personnel. 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The data that support the findings of this study are available in the public domain in the National Center for Epidemiology, Prevention