key: cord-1039531-rlq4v0ca authors: Bielecki, Michel; Gerardo Crameri, Giovanni Andrea; Schlagenhauf, Patricia; Buehrer, Thomas Werner; Deuel, Jeremy Werner title: Body temperature screening to identify SARS-CoV-2 infected young adult travellers is ineffective date: 2020-08-05 journal: Travel Med Infect Dis DOI: 10.1016/j.tmaid.2020.101832 sha: e38615ca9e850721e70e5fbd0a966d7f50050c1f doc_id: 1039531 cord_uid: rlq4v0ca nan We are writing this letter to the editor of "Travel medicine and Infectious Diseases" to alert readers of the futility of body temperature screenings at airports and border entry points. Body temperature screening (fever) is the primary test performed at the borders of some countries and concerns have been raised about its efficacy [1] . A recent study suggests low efficiency of such screening procedures among hospitalized patients [2] ; however, data are lacking for young adults who often present with mild or asymptomatic disease. Crucially, this is the part of the population considered to be highly contagious [3] . This is also the population segment most likely to travel and encounter body temperature screening which has been implemented at airports around the world. Data from previous outbreaks of other viruses (Ebola, Influenza H1N1) suggest that the number of cases detected by screening for body temperature is minimal or non-existent. SARS-CoV-1 screening procedures in Canada, Singapore, and Australia seem to have detected zero cases overall. Simulations performed modelling COVID-19 suggest that, at best, 44% of cases could be detected during exit screenings using body temperature measurements [4, 5] . We evaluated the body temperature of 84 COVID-19 patients twice daily for fourteen days after diagnosis by PCR. These patients were part of a cohort of young (median age 21), predominantly male recruits in military basic training of the Swiss Armed J o u r n a l P r e -p r o o f Forces. The outbreak of COVID-19 as well as the demographic characteristics of this cohort is described elsewhere [3] . The tympanic temperature of symptomatic patients with PCR confirmed COVID-19 was significantly higher than the temperature of unaffected controls ( Figure 1A ), but the distribution density curves of temperatures overlap considerably between both groups. Sensitivity and specificity were calculated by comparing the two groups ( Figure 1B The temperature data started was collected on the day recruits presented with symptoms, and not at random, thus, the sensitivity is probably overestimated, since body temperature is highest at the day of presentation: Shortly after presentation, body temperature normalized ( Figure 1C) , and after five days, no patient had fever anymore, while infectivity is reported to last up to 10 days post-infection. 83% of our patients never developed a fever and, with one exception, no one suffered from fever for longer J o u r n a l P r e -p r o o f than three days ( Figure 1D ). In our evaluation of young army recruits, a temperature cut-off of 38°C only allows for the identification of the minority of cases, while an even higher cut-off value of 38.5°C misses 92% of all COVID-19 patients at the time of presentation in this age category. Screening for fever is not sensitive enough to detect the vast majority of COVID-19 cases in the age group between 18-25 years. Even a low-temperature cut-off value of 37.1°C will miss more than a third of symptomatic cases of COVID-19 on the day of diagnosis and will cause a large number of false-positives. The CDC considers screening employees for temperature as a possible strategy to combat the further spread of COVID-19 [6] . This raises the need to develop new clinical criteria to detect cases of COVID-19 as temperature-based random screening proves to be virtually useless for young adults as shown here in our evaluation. We reinforce the WHO's recommendation that widespread testing for SARS-CoV-2 is currently the only available efficient way to monitor the trajectory of the infection and control the spread of COVID-19. Screening temperature at borders is a strategy that has been pursued in the past and has proved to be both expensive and ineffective. We advocate the evaluation of, novel non-invasive screening approaches, such as testing saliva samples for SARS-CoV-2 with rapid follow-up on positives. This may prove to be a fast and more sensitive alternative to body temperature screening at borders. Coronavirus disease-2019: is fever an adequate screening for the returning travelers Temperature screening has negligible value for control of COVID 19 Social distancing alters the clinical course of COVID-19 in young adults: A comparative cohort study Exit and Entry Screening Practices for Infectious Diseases among Travelers at Points of Entry: Looking for Evidence on Public Health Impact CMMID nCoV working group. Effectiveness of airport screening at detecting travellers infected with novel coronavirus (2019-nCoV)