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Chin Med J (Engl) ; 133(9): 1039-1043, 2020 May 05.
Article in English | MEDLINE | ID: covidwho-1722619


BACKGROUND: A patient's infectivity is determined by the presence of the virus in different body fluids, secretions, and excreta. The persistence and clearance of viral RNA from different specimens of patients with 2019 novel coronavirus disease (COVID-19) remain unclear. This study analyzed the clearance time and factors influencing 2019 novel coronavirus (2019-nCoV) RNA in different samples from patients with COVID-19, providing further evidence to improve the management of patients during convalescence. METHODS: The clinical data and laboratory test results of convalescent patients with COVID-19 who were admitted to from January 20, 2020 to February 10, 2020 were collected retrospectively. The reverse transcription polymerase chain reaction (RT-PCR) results for patients' oropharyngeal swab, stool, urine, and serum samples were collected and analyzed. Convalescent patients refer to recovered non-febrile patients without respiratory symptoms who had two successive (minimum 24 h sampling interval) negative RT-PCR results for viral RNA from oropharyngeal swabs. The effects of cluster of differentiation 4 (CD4)+ T lymphocytes, inflammatory indicators, and glucocorticoid treatment on viral nucleic acid clearance were analyzed. RESULTS: In the 292 confirmed cases, 66 patients recovered after treatment and were included in our study. In total, 28 (42.4%) women and 38 men (57.6%) with a median age of 44.0 (34.0-62.0) years were analyzed. After in-hospital treatment, patients' inflammatory indicators decreased with improved clinical condition. The median time from the onset of symptoms to first negative RT-PCR results for oropharyngeal swabs in convalescent patients was 9.5 (6.0-11.0) days. By February 10, 2020, 11 convalescent patients (16.7%) still tested positive for viral RNA from stool specimens and the other 55 patients' stool specimens were negative for 2019-nCoV following a median duration of 11.0 (9.0-16.0) days after symptom onset. Among these 55 patients, 43 had a longer duration until stool specimens were negative for viral RNA than for throat swabs, with a median delay of 2.0 (1.0-4.0) days. Results for only four (6.9%) urine samples were positive for viral nucleic acid out of 58 cases; viral RNA was still present in three patients' urine specimens after throat swabs were negative. Using a multiple linear regression model (F = 2.669, P = 0.044, and adjusted R = 0.122), the analysis showed that the CD4+ T lymphocyte count may help predict the duration of viral RNA detection in patients' stools (t = -2.699, P = 0.010). The duration of viral RNA detection from oropharyngeal swabs and fecal samples in the glucocorticoid treatment group was longer than that in the non-glucocorticoid treatment group (15 days vs. 8.0 days, respectively; t = 2.550, P = 0.013) and the duration of viral RNA detection in fecal samples in the glucocorticoid treatment group was longer than that in the non-glucocorticoid treatment group (20 days vs. 11 days, respectively; t = 4.631, P < 0.001). There was no statistically significant difference in inflammatory indicators between patients with positive fecal viral RNA test results and those with negative results (P > 0.05). CONCLUSIONS: In brief, as the clearance of viral RNA in patients' stools was delayed compared to that in oropharyngeal swabs, it is important to identify viral RNA in feces during convalescence. Because of the delayed clearance of viral RNA in the glucocorticoid treatment group, glucocorticoids are not recommended in the treatment of COVID-19, especially for mild disease. The duration of RNA detection may relate to host cell immunity.

Betacoronavirus/genetics , Coronavirus Infections/genetics , Pneumonia, Viral/genetics , RNA, Viral/genetics , Adult , Aged , COVID-19 , COVID-19 Testing , Clinical Laboratory Techniques , Coronavirus Infections/diagnosis , Coronavirus Infections/rehabilitation , Female , Humans , Male , Middle Aged , Pandemics , Pneumonia, Viral/rehabilitation , Real-Time Polymerase Chain Reaction , Retrospective Studies , SARS-CoV-2
J. Shanghai Jiaotong Univ. Med. Sci. ; 4(40): 417-421, 20200428.
Article in Chinese | WHO COVID, ELSEVIER | ID: covidwho-621324


Since December 2019, the coronavirus disease 2019 (COVID-19) has become one of the most significant infectious diseases in the world. The epidemic in China has been basically controlled through a series of prevention and control measures. But the number of confirmed cases and deaths in other countries and regions is still rapidly rising. In response to this major epidemic, the hospital's emergency management system is facing a great challenge, especially the department of emergency, which takes the responsibilities of the screening and diagnosis of fe-ver patients as well as the emergency treatment of ordinary patients. Through two months of practice and exploration, our hospital has summa-rized some experiences in improving the emergency management system, establishing a peace and war integration mechanism, reorganizing medical resources, guaranteeing the deployment of supplies and optimizing information system, and has achieved the "zero infection" of medical staff, "zero misdiagnosis" and "zero cross-infection" of patients with COVID-19.