Severe Acute Respiratory Syndrome Coronavirus 2 Infection among Returnees to Japan from Wuhan, China, 2020

In early 2020, Japan repatriated 566 nationals from China. Universal laboratory testing and 14-day monitoring of returnees detected 12 cases of severe acute respiratory syndrome coronavirus 2 infection; initial screening results were negative for 5. Common outcomes were remaining asymptomatic (n = 4) and pneumonia (n = 6). Overall, screening performed poorly.


DISPATCHES
In early 2020, Japan repatriated 566 nationals from China. Universal laboratory testing and 14-day monitoring of returnees detected 12 cases of severe acute respiratory syndrome coronavirus 2 infection; initial screening results were negative for 5. Common outcomes were remaining asymptomatic (n = 4) and pneumonia (n = 6). Overall, screening performed poorly. ( Figure); test results were subsequently positive for 2 more. For 1 of these patients, pneumonia was diagnosed on day 1 and a sputum sample was positive on day 3; the other patient had fever and cough on day 1, pneumonia diagnosed on day 2, and a positive oropharyngeal swab sample on day 6. Excluding 1 patient who remained hospitalized for stroke, the remaining 58 patients were transferred to designated quarantine facilities after confirmation of good health and negative PCR results; all 58 remained asymptomatic after discharge, and PCR results were negative at exit screening. For the 503 asymptomatic/subclinical passengers, entry-screening PCR results were positive for 5 (1.0%) (Figure); 3 remained asymptomatic, but mild signs/symptoms (fever, headache, sore throat) developed for 2 persons (1 on day 2, 1 on day 4). Of the remaining 498 persons with negative PCR results, 484 were quarantined at designated facilities and 14 at home. During quarantine, fever developed in 1 facility-quarantined and 1 home-quarantined person on day 10; both were confirmed positive by PCR, and pneumonia subsequently developed in both. The facility-quarantined case-patient was in a single room; no other person from this facility acquired COVID-19 or had a positive test result at exit screening. One person who remained asymptomatic had a positive test result at exit screening. Exit-screening results are pending for the patient hospitalized for stroke and the remaining 13 homequarantined persons.

Figure.
Results of testing 566 Japanese returnees from Wuhan, China, for severe acute respiratory syndrome coronavirus 2 by real-time reverse transcription PCR, January-February 2020. *Two persons were sampled on day 3, when they provided informed consent.

Conclusions
Testing all returnees-with follow-up for disease onset and course-enabled us to evaluate the spectrum of severity for SARS-CoV-2 infections (Table). From least to most severe, 4 patients experienced asymptomatic infection, 2 mild illness, and 6 pneumonia. Prospective monitoring proved essential because of the 7 prevalent infections at entry, 5 were asymptomatic, 1 mild, and 1 pneumonia. Even with potential underascertainment of asymptomatic cases because of a lack of serologic assessment (6,7) (i.e., interval-censoring during screening tests), it is noteworthy that 4/12 persons with infections were asymptomatic. Although numbers are small, severity seemed to be age dependent (Table). No infections were detected among the 100 persons <30 years of age; of the 2 infections detected among the 138 persons 30-39 years of age, both persons were asymptomatic. Although no person in this study died, only 1 was >69 years of age. Regarding sex, excluding 1 returnee for whom sex was unknown and 14 for whom exit-screening results are pending, of the remaining 551 returnees, 9 (1.8%) of the 506 male passengers (2 asymptomatic, 2 mild, 5 pneumonia) and 3 (6.7%) of the 45 female passengers (2 asymptomatic, 1 pneumonia) were infected.
Our findings have public health implications. As recently reported (1), we found that symptom-based screening performed poorly, missing asymptom-atic and presymptomatic cases. Even with universal screening, nearly half of cases were missed. Because an asymptomatic case was detected at exit screening, limiting testing of quarantined persons to those with signs/symptoms would have missed such a case; with exit-screening results pending for 14 returnees, sensitivity could be lower. The poor sensitivity of single-point testing highlights the challenges of detecting SARS-CoV-2 infections.
The potentially long incubation period of CO-VID-19 was consistent with that recently reported (8,9) and contributed to the large proportion of missed cases. Active daily monitoring ensured that specific illness-onset times were captured, protected from the limitations associated with patient recall of symptom onset (10). Although exposure to SARS-CoV-2 occurred at some time before quarantine (i.e., left-censore d), our setting enabled us to estimate the minimum incubation period for each incident symptomatic case by taking the return date as the exposure time. Determining the specific exposure time can be difficult and is conditional according to the definition of contact. Given such qualifications, a conservative minimum incubation period of 10 days obtained prospectively in a clean quarantine setting, without recall or assumptions regarding transmission modes, is noteworthy.
Testing and follow-up of all returnees provided valuable information about the spectrum of SARS-CoV-2 infection. Most reported data have been from medically attended patients, skewed toward symptomatic patients and more severe cases, limiting our knowledge of the clinical spectrum of infection (6,11). In our setting, we could remove the influence of patients' health-seeking behaviors and clinicians' diagnostic practices and found that 4/12 case-patients were asymptomatic. At the same time, of the 8 case-patients who experienced symptoms, pneumonia developed in 6. Our findings were also consistent with the reported age-dependent nature 1598 Emerging Infectious Diseases • www.cdc.gov/eid • Vol. 26, No. 7, July 2020 of COVID-19 (2,(12)(13)(14); infection and clinical attack rates were lower among younger persons. Shedding light on the severity pyramid among those infected-not only among those who sought careprovides an evidence base for risk communication, healthcare planning, and public health response. Combined with reports suggesting transmissibility of SARS-CoV-2 from asymptomatic/subclinical case-patients (1,10,15,16), our findings suggest that controlling COVID-19 through the usual tools of syndrome-based surveillance and contact tracing alone may be difficult.
When confronted with an emerging pathogen, researchers can generate critical epidemiologic information by studying quarantined populations. As with the First Few X study (7), our design is protected from the usual biases of passively reported surveillance data. Aggregating high-quality data from these types of investigations can build a larger severity pyramid, enabling reliable estimation of various severity measures (e.g., symptomatic proportion of infected case-patients, case severity proportion among those who are symptomatic). We recommend using similar assessments to help elucidate the epidemiology of SARS-CoV-2 and inform public health response.