key: cord-0760344-gak0pvw0 authors: Zhang, Bin; Liu, Shuyi; Dong, Yuhao; Zhang, Lu; Zhong, Qingyang; Zou, Yujian; Zhang, Shuixing title: Positive rectal swabs in young patients recovered from coronavirus disease 2019 (COVID-19) date: 2020-04-23 journal: J Infect DOI: 10.1016/j.jinf.2020.04.023 sha: dfe600f8c4a8adeebfe1e25ed5487b1baf7a0f7c doc_id: 760344 cord_uid: gak0pvw0 Abstract Objectives To investigate the widely concerned issue about positive real-time reverse transcription polymerase chain reaction (RT-PCR) test results after discharge in patients recovered from coronavirus disease 2019 (COVID-19). Methods We identified seven cases of COVID-19 who was readmitted to hospital because of positive RT-PCR after discharge, including three pediatrics and four young adult patients. Results Six patients had positive rectal swabs but negative throat swabs, and one patient had positive throat swabs. All the patients continued to be asymptomatic and had unchanged chest computed tomography from previous images. The time from hospital discharge to positive RT-PCR after recovery was 7–11 days. The time from positive to negative rectal swabs was 5-23 days. Conclusion The study might suggest the positive RT-PCR after recovery did not mean disease relapse or virus reinfection. Adding RT-PCR test of rectal swabs to the criteria for discharge or discontinuation of quarantine might be necessary. As of 27 March, 2020, coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has been responsible for 530,000 infection cases with 23,552 deaths globally and the number is still increasing rapidly (1) . A total of 197 counties have been involved in this emerging infectious disease. On March 11, 2020 , Dr Tedros, the World Health Organization Director-General, said that COVID-19 can be characterized as a pandemic for the alarming levels of spread, severity, and inaction. In China, diagnostic test by real-time reverse transcription polymerase chain reaction (RT-PCR) assay is the main means of confirmation, and throat swab samples are collected for convenience and noninvasiveness (2) . However, this technique has a certain rate of false-negative results which might render convalescent COVID-19 patients to meet the current criteria of current discharge or discontinuation of quarantine, resulting in spread of virus (3) . In clinical settings, at least two repeat RT-PCR assays are performed to reduce the false-negative rate. A recent study reported that four medical professionals, aged from 30 to 36 years, still had positive RT-PCR results 5-13 days after recovery (4), which caused widespread concern. However, this phenomenon was not explained by authors. We could not determine whether it was disease relapse or not. In this study, we followed up seven patients who had positive RT-PCR results after recovery from COVID-19 pneumonia and tried to find the possible explanation. This study was approved by the institutional review boards of the First Affiliated Hospital of Jinan University and Dongguan Ninth People's Hospital, and informed consent was waived. The seven hospitalized COVID-19 patients were treated at Dongguan Ninth People's Hospital from January 30 to February 5, 2020. Laboratory confirmation of SARS-CoV-2 infection was performed by RT-PCR assays of throat or rectal swabs according to the standard protocol (5) . SARS-CoV-2 infection was defined by at least two positive RT-PCR test results. Epidemiological characteristics, demographic information, laboratory findings, and radiological features were collected from electronic medical records. The criteria for discharge were according to the seventh trial version of the COVID-19 pneumonia guidelines released by China (6): 1) normal temperature lasting longer than three days, 2) significantly relieved respiratory symptoms, 3) substantially improved acute exudative lesions on chest computed tomography, and 4) a series of two repetitive negative RT-PCR test results with at least one day interval. After hospital discharge, all the patients were quarantined in designated hospitals and followed up by RT-PCR tests. Among the seven patients, four had a recent travel to Wuhan, one had visited their relatives in Wuhan, and one had contacted family member who had been to Wuhan. Three children (patient 1-3) had at least one infected family member. The seven patients included one female infant (10 months), two male adolescents (13 and 14 year-old), and four young adult males (26, 33, 35, and 35 year-old). All the patients had no underlying diseases except for the patient 7 had hepatitis B. Four patients (patient 1, 2, 5, 6) were initially asymptomatic, and three (patient 3, 4, 7) had fever, dry cough, malaise or combinations occurred at onset. Table 1 interferon alpha 1b (50 μg twice daily). One adolescent received oseltamivir (15 mg twice daily), arbidol (100 mg three times daily) and lopinavir and ritonavir (400 mg every 12 hours), and the other adolescent received arbidol (100 mg three times daily), and lopinavir and ritonavir (400 mg every 12 hours). Six patients were supplemented with oxygen via nasal cannula. After treatment, three patients' respiratory symptoms were significantly relieved. The infant's pneumonia was obviously absorbed, while the chest CT images of remaining patients were unchanged. Six patients had at least two consecutive negative RT-PCR results of throat swabs and one adult had two consecutive negative RT-PCR results of both throat and rectal swabs. The time from admission to recovery ranged from 11 to 23 days. After hospital discharge, the patients were asked to continue the quarantine in designated hospitals for 14 days. During the quarantine, four patients had positive RT-PCR assays of rectal swabs only, two had positive RT-PCR results of throat swabs, and one had positive RT-PCR results of both throat and rectal swabs ( Figure 1 ). The time from hospital discharge to positive RT-PCR results after recovery was 7-11 days. The patients were asymptomatic and chest CT images showed no change from the last scan before discharge. They did not report contact with any suspected or confirmed person. All the patients were admitted to hospital again because positive rectal swabs in six patients or positive throat swabs in one patient. They were treated with Chinese medicine toujiequwenkeli (11g twice daily, orally). The median length of second hospital stay was 10 days (interquartile, 6-10 days). Several days before the second discharge, most patients had at least two repetitive negative RT-PCR tests of both throat and rectal swabs, but the patients 3, 6, and 7 continued the quarantine in designated hospitals because of negative throat swabs but positive rectal swabs. After 2, 14, and 2 days respectively, rectal swabs of the three patients turned negative. The time from initial positive to negative rectal swabs ranged from 5 to 23 days. Given that the first discharge criteria of patients were based on throat swabs instead of rectal swabs, the longest rectal virus shedding might be more than 23 days. In this case series, we reported seven young patients who met the current criteria for discharge in China but still had positive RT-PCR test results 7-11 days after discharge. These findings suggested that some recovered patients may still be virus carriers, which questioned the current discharge criteria that two repetitive negative RT-PCR tests (with a one-day gap between the two tests) of throat swabs are necessary. In this study, most patients had two consecutive negative RT-PCR test results of throat swabs before discharge but positive RT-PCR test results of rectal swabs after discharge, indicating the necessity of adding RT-PCR testing of rectal swab specimens to the criteria for discharge or discontinuation of quarantine. The current discharge criteria can be more stringent if current testing load and medical resource allowed. Previous findings showed rectal swab-testing might be more useful than throat swab-testing in determining the effect of treatment and the timing of termination of quarantine (7) . A recent study showed persistent rectal swab positives even after nasopharyngeal swab testing turned negative in eight children (8) . It was speculated that different sampling tissues may have different levels of viral nucleic acid and lasting time of virus shedding. The detection rate of specimens is limited by the level of viral nucleic acid. Viral shedding from the digestive system might be more severe and lasting longer than that from the respiratory tract. More rectal swab positives were found in a later stage of infection as compared with oral swab positives, suggesting viral shedding and transmitting through oral-fecal route (9) . In addition, intermittent virus shedding might occur in recovered patients. One patient had both negative throat and rectal swabs before hospital discharge but had positive throat swab during quarantine. Therefore, positive RT-PCR results occurred in most patients recovered from COVID-19 might not be caused by virus recurrence or second virus infection. All the patients continued to be asymptomatic and chest CT showed no changes from previous images might also support this viewpoint. Although positive RT-PCR test results were found for convalescent patients, antiviral therapy might not be needed because most patients' RT-PCR results would turn negative in several days. Antibodies IgM and IgG against SARS-CoV-2 infection may be produced in these patients, therefore, the transmission risk is low even if the patients have positive RT-PCR test results after recovery. Antibody IgG can persist a very long time (10) . Although there is no firm evidence indicating these patients would transmit the virus to others, we should be aware the potential way of transmission through the oral-faecal route (11, 12) . Patients should continue the quarantine in designated hospitals for at least 14 days and be followed up by RT-PCR assays of both throat and rectal swabs to avoid false-negative. In addition, psychological intervention is necessary for patients recovered from COVID-19 but have positive RT-PCR results again, because they may experience psychological problems including anxiety, depression, sleeplessness, and stress. The study was limited to a small number of patients with mild or moderate SARS-CoV-2 infection. Patients with severe or critically ill diseases should be included for further study. Large cohort study may be needed to confirm these findings. The authors declare no competing interests. RT-PCR testing was performed on admission, during hospitalization and quarantine. Abbreviation: RT-PCR, real-time reverse transcription polymerase chain reaction. World Health Organization. Coronavirus disease (COVID-19) Pandemic Clinical Characteristics of 138 Hospitalized Patients With 2019 Novel Coronavirus-Infected Pneumonia in Wuhan Chest CT for typical 2019-nCoV pneumonia: relationship to negative RTPCR testing Positive RT-PCR Test Results in Patients Recovered From COVID-19 Coronavirus disease (COVID-19) technical guidance: laboratory testing for 2019-nCoV in humans Guidelines for the diagnosis and treatment of novel coronavirus (2019-nCoV) infection (trial version 7) (in Chinese). 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