key: cord-1002789-m1th7hsb authors: Lijia, Shao; Lihong, Shen; Huabin, Wang; Xiaoping, Xu; Xiaodong, Lu; Yixuan, Zhu; Pin, He; Yina, Xu; Xiaoyun, Shan; Junqi, Wu title: Serological chemiluminescence immunoassay for the diagnosis of SARS‐CoV‐2 infection date: 2020-07-16 journal: J Clin Lab Anal DOI: 10.1002/jcla.23466 sha: 90035abd819e4059b65f2835b6466827504f95fe doc_id: 1002789 cord_uid: m1th7hsb OBJECTIVE: Dynamic monitoring of the concentration variation of IgM and IgG in patients with SARS‐CoV‐2 infections and exploring their diagnostic value for coronavirus disease‐19 (COVID‐19). METHODS: A total of 15 patients with SARS‐CoV‐2 infection were enrolled as the COVID‐19 group, and 50 patients were enrolled as the control group. The concentrations of SARS‐CoV‐2‐specific antibodies (IgM and IgG) were detected by a chemiluminescence immunoassay (CLIA). RESULTS: According to the cutoff value recommended by the manufacturer (cutoff = 10 AU/mL), the sensitivity, specificity, Youden index (YI), positive predictive value (PPV), and negative predictive value (NPV) of IgM were 60%, 100%, 60%, 100%, and 89.29%, respectively; and 86.67%, 100%, 86.67%, 100%, and 96.15%, respectively, for IgG. We reassessed the cutoff value of IgM. When the cutoff value for SARS‐CoV‐2 IgM was 1.83 AU/mL, the sensitivity, specificity, YI, PPV, and NPV were 93.33%, 98%, 91.33%, 93.33%, and 98%, respectively. During dynamic monitoring of the concentrations of IgM and IgG in COVID‐19 patients, we found the shortest times before a patient became IgM and IgG seropositive after symptom onset were 1.5 and 2 days, respectively. The longest times were 7 and 8 days, respectively. The positive rates of SARS‐CoV‐2 IgM and IgG both reached 100% in 8‐14 days after symptom onset. CONCLUSION: The IgM cutoff value of 1.83 AU/mL for the diagnosis of COVID‐19 was much better than the cutoff suggested by the manufacturer. SARS‐CoV‐2 infection can be ruled out if antibodies against SARS‐CoV‐2 are still undetectable 14 days after symptom onset. The outbreak of the novel coronavirus disease (COVID- 19) quickly spread all over the world. As of March 31, 2020, the COVID-19 disease has plagued over 190 countries, and over 700 000 people have been infected by SARS-CoV-2, which is currently spreading at alarming rates in Europe and the United States. 1 SARS-CoV-2 is a new coronavirus belonging to the beta coronaviruses, with a single genus and a positive strand RNA. 2, 3 In the past, six coronavirus species have been known to cause human diseases. HCoV-229E, HCoV-OC43, HCoV-NL63, and HCoV-HKU1 are only transmitted among human beings, and they cause relatively mild symptoms. SARS-CoV-2 is the seventh member of the newly discovered coronavirus species. It was reported that 81% of people with COVID- 19 have mild disease and never require hospitalization. 4 The mortality of COVID-19 in China was approximately 4.0%. 1 However, the mortality of COVID-19 among critically ill patients and those requiring mechanical ventilation was very high. 5 Older age and a higher Sequential Organ Failure Assessment score on admission have been reported to be associated with high mortality. 6 The virus is also reported to spread during asymptomatic phase, which greatly increases the difficulty of COVID-19 disease prevention, diagnosis, and control of its spread. Therefore, many scientists and biological companies are committed to research and develop an accurate and rapid diagnostic test method to quickly identify a large number of symptomatic and asymptomatic in order to prevent and control virus transmission. 7, 8 Real-time reverse transcription PCR (RT-PCR)-based viral RNA detection is the gold standard for the diagnosis of COVID-19. [9] [10] [11] [12] The accuracy of RT-PCR is heavily reliant on the sampling period and location. Missing the window period of viral replication can provide false-negative results. 13 It is highlighted that there is an urgent need to develop effective tools to recognize SARS-CoV-2-infected patients. It is widely accepted that IgM provides the first line of defense during viral infections, prior to the generation of adaptive, high-affinity IgG secondary response that are important for long-term immunity and immunological memory. 14 Studies on SARS-CoV and MERS-CoV showed that antibodies were detectable in 80%-100% of patients at 2 weeks after illness onset, and the antibodies can persist for at least 12 years. 15, 16 Considering SARS-CoV-2 is the seventh member of the coronavirus species, it has 79.5% homology with SARS-CoV. Serological detection of antibodies against SARS-CoV-2 provides another possibility for the early diagnosis of COVID-19. Chemiluminescence immunoassays (CLIA) are quantitative serological antibody detection assays, which have high sensitivity and specificity. The continuous detection of antibody concentrations could be used to assess the progression of COVID-19 cases. Therefore, our research group is devoted to doing research on serological antibodies in SARS-CoV-2-infected patients. We enrolled 65 patients from Jinhua Municipal Central Hospital RT-PCR for SARS-CoV-2 nucleic acid diagnostic reagents (Zhijiang, China); chemiluminescence test kit for SARS-CoV-2 (Yhlo, China); EX3600 nucleic acid automatic extraction equipment (Zhijiang, China); ABI 7500 real-time fluorescent quantitative PCR equipment (Abi, USA); iFlash3000 automatic CLIA analyzer (Yhlo, China). IgM and IgG using the CLIA Using an indirect two-step immunoassay, the tests were conducted according to the procedures recommended by the manufacturer (Shenzhen Yhlo Biotech Co., Ltd). The resulting chemiluminescent reaction is measured as relative light units (RLUs). A direct relationship exists between the amount of anti-SARS-CoV-2 IgM/G in the sample and the RLUs detected by the iFlash optical system. The results are determined via a calibration curve, which is an instrument-specifically generated by 2-point calibration and a master curve provided via the reagent QR code. The cutoff value of SARS-CoV-2 IgM/G, according to the manufacturer, was 10.00 AU/mL. When the IgM/IgG concentration was <10.00 AU/mL, it was regarded as non-reactive; more than or equal to 10.00 AU/mL was regarded as positive. The data of variables with non-normal distributions are expressed by the median, and Mann-Whitney U tests were used for comparisons. A P value < .05 was considered statistically significant. According to the guideline of diagnosis and treatment of COVID-19, In the COVID-19 group, there were 3 cases of SARS-CoV-2 infection with hypertension, 1 case with hyperlipidemia, 1 case with cholecystitis, and 1 case with gallstones. According to the guidelines, 1 of 15 cases was classified as mild symptoms, 12 of 15 cases were classified as common severity of symptoms, and 2 of 15 cases were in severe or critical illness conditions. Only fever (4/15), fever with cough (6/15), fever with a sore throat (1/15), fever with muscle aches (1/15), fever with palpitations (1/15), and a sore throat with a dry cough (2/15) were the first onset symptoms. In our study, there were no patients with an asymptomatic infection. The shortest hospital stay was 4 days, the longest was 31 days, and the average hospital stay was 13.60 ± 7.85 days. We found in the control group the serum concentrations of SARS-CoV-2 IgM and SARS-CoV-2 IgG were 0.46 AU/mL and 0.74 AU/ mL, respectively. The medians of SARS-CoV-2 IgM and IgG in the COVID-19 group were 17.86 AU/mL and 69.23 AU/mL, respectively (Table 1 ). The concentrations of IgM and IgG in the COVID-19 group were much higher than in the control group (P < .001, P < .001). According to the cutoff value recommended by the manufacturer (cutoff = 10 AU/mL), the sensitivity, specificity, Youden index (YI), positive predictive value (PPV), and negative predictive value (NPV) of IgM were 60%, 100%, 60%, 100%, and 89.29%, respectively, and 86.67%, 100%, 86.67%, 100%, and 96.15%, respectively, for IgG. The diagnostic sensitivity of IgM was much lower than that of IgG (60% vs 86.67%). When we followed the serological courses of the COVID-19 patients, we found 40% (6/15) COVID-19 patients of IgM seroconversion was later than that of IgG (cutoff value = 10 AU/mL) ( Figure 1 ). Considering the high diagnostic efficiency of IgG, we chose the day on which the SARS-CoV-2 IgG was close to 10.00 AU/mL. Then, we collected IgM data on the same day to select new cutoff values. When the cutoff value of IgM was 1.83 AU/mL, we obtained the maximum YI. The sensitivity, specificity, YI, PPV, and NPV were 93.33%, 98%, 91.33%, 93.33%, and 98%, respectively. The sensitivity, YI, and NPV were much better with the new cutoff (Tables 2 and 3 ). We found the shortest time for IgM to become positive was 1.5 days after the onset of symptoms, and the longest time was 7 days. The shortest time to become IgG positive was 2 days after symptom In this study, we dynamically detected the concentration variations of IgM and IgG in patients infected with SARS-CoV-2 and explored their diagnostic value for COVID-19. Compared with nucleic acid detection, antibody detection greatly shortens the sample detection time, and it is less complicated to perform. The chemiluminescence method is a quantitative serological antibody detection assay, which has high sensitivity and specificity. Testing for antibodies can reflect whether the patient is in a state of acute infection. Convalescent plasma or hyper-immune immunoglobulin from patients that contains significant antibody titers can likely reduce the viral load and disease mortality. 17, 18 Using CLIA for quantitative detection of SARS- CoV-2 antibodies would be helpful in the diagnosis of COVID-19. In our study, we found that the median IgM in COVID-19 pa- diagnoses. There are several limitations to our study. First of all, this small sample size must be discreetly analyzed. Secondly, this antibody detection kit was not available at the beginning of the outbreak of SARS-CoV-2 in China, and some patients who were discharged without antibody testing could not be enrolled in our study. Thirdly, as of the last date of this study (March 5), the IgM level never returned to seronegative in the COVID-19 patients. At the same time, we do not know how long the IgG seropositivity will last. Therefore, we have not completely analyzed the dynamic changes of SARS-CoV-2-specific antibodies. In the future, we will continue to follow up on the changes of SARS-CoV-2-specific IgG/IgM in discharged COVID-19 patients. 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