key: cord-1008139-rb71gkvw authors: Molero-Salinas, Andrea; Rico-Luna, Carla; Losada, Carmen; Buenestado-Serrano, Sergio; de la Cueva García, Víctor Manuel; Egido, José; Adán-Jiménez, Javier; Catalán, Pilar; Muñoz, Patricia; Pérez-Lago, Laura; García de Viedma, Darío title: High SARS-CoV-2 viral load in travellers arriving in Spain with a negative COVID-19 test prior to departure date: 2021-11-16 journal: J Travel Med DOI: 10.1093/jtm/taab180 sha: 3b200962635f5bd192802fb25dd0561898bcc2a3 doc_id: 1008139 cord_uid: rb71gkvw Hundred and ninety-six travellers with negative-COVID-19-tests prior to departure tested positive, on arrival at Madrid (April/June 2021), from a total of 45 211 travellers tested (0.43%). Viral loads (Ct: 20.3) were higher compared to the general population (Ct: 27.09). Our data reveal weaknesses in pre-departure testing and alert about high-viral-load-SARS-CoV-2 carriers in intercontinental flights. International air travel has been a key factor in the global spread of SARS-CoV-2. In the early stages of the pandemic, borders were closed to international travellers, while at later stages, a number of different control strategies have been implemented. Measures aimed at minimizing the importation of COVID-19 cases include symptom identification in ill travellers, quarantining on arrival and finally, travel restrictions allowing only those showing a negative pre-departure SARS-CoV-2 test to travel. The aim of our study was to assess the robustness of the current control measures based on negative pre-departure tests by evaluating whether, despite the requirement for a negative test on departure, it is still possible to identify travellers testing positive for SARS-CoV2 by RT-PCR on arrival. The study was approved by the ethical research committee of Gregorio Marañón Hospital (Reference MICRO.HGUGM.2021-009). Our study ran over 2 months, between 22 April and 26 June 2021, when it was mandatory for any person taking a flight to Spain to have a negative pre-departure SARS-CoV test. Tests were required to be taken within 72 hours or 48 hours before departure for nucleic acid and rapid antigen tests (RAT), respectively; considering the potential intermediate stops for some international flights, this time window before arrival might extend up to 96 hours before arrival for certain countries of departure. The screening protocol followed at Madrid international airport (https://www.mscbs.gob.es/profesionales/saludPublica/ sanidadExterior/ControlHS.htm) was based on a two-stage procedure. Firstly, a primary control based on (i) temperature measure (>37.5 • C), (ii) visual examination on the passenger status and/or symptoms and (iii) data compiled in the Health Control Form (SpTH), which is obligatory to enter to Spain. Then, a secondary control for all cases with suspicion of suffering COVID-19 in the primary control; it included a clinical and epidemiological study, including a RAT test (Panbio COVID-19 Ag Rapid Test Device (nasopharyngeal); Abbott, Chicago, IL). In addition, RATs were performed at arrival on a random selection of asymptomatic travellers. The random selection was done by using the SpTH (Spain Travel Health) programme from the Ministry of Health, which uses the QR codes obtained by each traveller after having fulfilled the SpTH form. The percentage of travellers randomly selected to be tested was determined according to common criteria determined for entering in any country from the EU (SND orders for the quarantine). We selected all the 196 positive cases identified with a SARS-CoV-2 RAT test on arrival at Madrid international airport and, later, laboratory-confirmed by a positive RT-PCR test (TaqPath, Thermo Fisher, MA, USA) from a new specimen taken at our hospital using the same materials, reagents and procedures, which were used for COVID-19 diagnosis on the community setting. The 196 travellers with a positive SARS-CoV-2 test on arrival represented 0.43% of the 45.211 travellers tested. Most of these came from Colombia (114), followed by the Dominican Republic (30) and Peru (12). The 40 remaining cases were distributed Table 1 , available as Supplementary data at JTM online, Figure 1A ). Most of them (175/196) had not been vaccinated; for the remaining 21 travellers, 13 and 8 had received two or one vaccine doses, respectively. Different studies have also identified SARS-CoV-2 patients in travellers on arrival, although most were performed in 2020 before pre-departure testing was generally mandated for international travel. One study in Alaska identified 951 asymptomatic travellers with positive SARS-CoV-2 test results and another two studies from Canada identified around 1-2% of asymptomatic travellers as being positive on arrival. 1 Other studies have focused on the analysis of SARS-CoV-2 infection prevalence in repatriation flights, 2-4 offering figures ranging from 0.44 to 6.3%. These figures led to some of the authors to recommend the implementation of pre-departure testing. The unexpectedly common finding of travellers with SARS-CoV-2 on arrival in our study, despite the compulsory negative test result prior to departure, was even more alarming when we analysed SARS-CoV-2 viral loads. Based on RT-PCR Ct values (N gene), the mean viral load of those travellers diagnosed on arrival was inferred to be high (Ct: 20.3). During the same period of time, 2543 COVID-19 cases were diagnosed at our institution from community cases, excluding travellers, and their mean Ct value was significantly higher (Ct: 27.1, P < 0.001, Figure 1B ) when compared with the average Ct value of the travellers group. After analysing the mean Ct values of cases from the three best represented countries of origin, namely, Colombia (Ct: 19.5), the Dominican Republic (Ct: 22) and Peru (Ct: 19.9), those from Colombia showed the lowest values (P: 0.0198, Wilcoxon ranksum test, Figure 1B ) of all positive travellers. Our data contrast with those from another study in Canada in which the mean viral loads of travellers diagnosed on arrival were much lower (average Ct: 32) and only 22% of positive travellers showed high viral loads (Ct < 25). 5 Our data revealed clear weaknesses in the current international control regulations based on pre-departure testing for international flights. Testing within 24 hours before the flight's departure 6 has been proposed to minimize the proportion of cases that may be missed with the current 72-hour time window. However, the high viral load values among the travellers in our study suggest that they should have been detected within the 72 hours prior to departure. The low efficiency in identification of these highly infective asymptomatic COVID-19 cases would appear to be due to the low sensitivity or lack of validity of the tests applied in the country of origin and even due to the possibility of fake test certificates. WGS analysis was performed on 171 (87%) of positive travellers. The most frequently identified SARS-CoV-2 variant was B.1.621 (72, 42.1%), as was expected for a sample in which most cases came from Colombia (Table 1) . Some VOCs were also identified in 39.2% of the cases, among them B. Table 1 ). The variant frequency distribution differed from the one in our population in the same time period (based on a random sample of 571 community cases sequenced; 22.5% of total diagnosed cases), in which the dominant variants were the Alpha, Gamma and Delta VOCs (89% altogether, Alpha 68%, 17% Delta and 4.2% Gamma), while the majority B.1.621 variant in the travellers accounted for only 3.5% of our population. The impact of in-flight exposure to positive cases has been evaluated. 7 ,8 In our case, we were unable to determine the secondary cases caused by in-flight exposure since we did not have access to those cases developing symptoms after arrival and therefore sequencing data could not be obtained for comparisons. We compared our sequencing data with sequences obtained from 572 cases from our population (community cases) diagnosed in the same time period and no transmission clusters were identified involving travellers and community cases. Our findings indicate clear weaknesses in the control measures based on pre-departure screening for SARS-CoV-2 and raise concerns about the frequent presence of undiagnosed asymptomatic carriers with high viral loads on intercontinental flights. There is a real need to reinforce travel regulations to rule out international movements of highly infective COVID-19 cases. Pilar Catalán and Patricia Muñoz. Technical procedures were performed by Víctor Manuel de la Cueva García, José Egido and Javier Adán-Jiménez. Experimental tasks were carried out by Víctor Manuel de la Cueva García and Javier Adán-Jiménez. Andrea Molero-Salinas was in charge of the experimental analysis Sergio Buenestado-Serrano performed bioinformatic analysis Burillo (Almudena), Candela (Ana), Carrillo (Raquel), Catalán (Pilar) is receptor of a Miguel Servet Research contract (CPII20/00001) from Instituto de Salud Carlos III Airport Traveler Testing Program for SARS-CoV-2 -Alaska High prevalence of SARS-CoV-2 infection in repatriation flights to Greece from three European countries SARS-CoV-2 infection prevalence on repatriation flights from Wuhan City High proportion of asymptomatic and presymptomatic COVID-19 infections in air passengers to Brunei COVID-19 international border surveillance at Toronto's Pearson Airport: a cohort study Reducing travel-related SARS-CoV-2 transmission with layered mitigation measures: symptom monitoring, quarantine, and testing New coronavirus (SARS-CoV-2) crossing borders beyond cities, nations, and continents: impact of international travel Genomic evidence of in-flight transmission of SARS-CoV-2 despite predeparture testing We are grateful to Janet Dawson for her editing and proofreading assistance. We are indebted to Ana Clara Zoni from Subdirección General de Información Sanitaria, Secretaria General de Salud Digital, Información e Innovación del Sistema Nacional de salud, Ministerio de Sanidad, Spain and personnel from Área de Control Sanitario, Subdirección General de Sanidad Exterior, Dirección General de Salud Pública, Secretaría de Estado de Sanidad and Ministerio de Sanidad for their invaluable help to obtain data from the travellers tested at the airport and information about the diagnosis schemes applied. Supplementary data are available at JTM online. None declared.