key: cord-0992272-6z324jz2 authors: Okuyama, Takahiro; Ohtsuka, Kouki; Ogura, Wataru; Yonetani, Shota; Yamasaki, Satoko; Miyagi, Hiroyuki; Sekiguchi, Kumiko; Ohnishi, Hiroaki; Watanabe, Takashi title: Establishing an internal quality control method for the stable extraction of nucleic acids of severe acute respiratory syndrome coronavirus 2 and RT‐PCR‐based detection date: 2021-10-02 journal: J Clin Lab Anal DOI: 10.1002/jcla.23998 sha: ba75073a692688608e31fb2bd9980c6fb8490ec7 doc_id: 992272 cord_uid: 6z324jz2 BACKGROUND: Severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2), the causative agent of the coronavirus disease 2019 (COVID‐19), is detected using real‐time RT‐PCR. However, there are limitations pertaining to quality control, particularly with respect to establishing quality control measures for extraction of viral nucleic acids. Here, we investigated the quality control measures for the various processes using an extrinsic quality control substance and quality control charts. METHODS: An extrinsic quality control substance was added to the sample, and then, real‐time RT‐PCR was performed. Samples with negative test results and the corresponding data were analyzed; a quality control chart was created and examined. RESULTS: Data analysis and the quality control charts indicated that SARS‐CoV‐2 could be reliably detected using real‐time RT‐PCR, even when different nucleic acid extraction methods were used or when different technicians were employed. CONCLUSION: With the use of quality control substances, it is possible to achieve quality control throughout the process—from nucleic acid extraction to nucleic acid detection—even upon using varying extraction methods. Further, generating quality control charts would guarantee the stable detection of SARS‐CoV‐2. rapidly. 3 COVID-19 is diagnosed by detecting SARS-CoV-2 using real-time reverse transcription-polymerase chain reaction (RT-PCR), as described in the Pathogen Detection Manual 2019-nCoV of the National Institute of Infectious Diseases. 4 The use of internal quality control standards greatly influences the accuracy of the test results and is therefore vital in diagnostic facilities. The Pathogen Detection Manual 2019-nCoV details the guidelines for confirming the positive and negative controls used for the quality control of the nucleic acid detection process. 4 However, there are no guidelines to ensure the quality control of the nucleic acid extraction process. The effectiveness of the nucleic acid extraction process is influenced by the extraction efficiency, which depends on parameters such as sampling errors, nucleic acid degradation, and presence of inhibitors. It is additionally influenced by the use of samples with a low viral load, poor quality samples, or samples subjected to other prior treatments. 5 It is important to prevent false negatives in the subsequent confirmation tests. The global spread of COVID-19 resulted in an urgent need to hire personnel for conducting inspections at many facilities. This urgency increased the probability of hiring inexperienced personnel for conducting diagnostic tests. In such contexts, it is important to establish a quality control method to ensure accurate diagnostic results; however, no such method is currently available for the detection of SARS-CoV-2. 6 The Lightmix Modular EAV RNA Extraction Control Kit from Roche Diagnostics (Basel, Switzerland; hereafter referred to as the EAV reagent kit) enables the quality control of the nucleic acid extraction process. The EAV reagent kit consists of equine arteritis virus nucleic acid (hereafter referred to as the EAV control) and a primer probe that can detect the viral nucleic acid sequence. The EAV reagent is an external control reagent that can be added to a sample; its amplification confirms that the reaction systems in the nucleic acid extraction and detection steps are functioning properly. 7 Conventionally, nucleic acids are evaluated using the A 280 and A 280 /A 260 metrics. The advantage of using the EAV control is that the accuracy of both the nucleic acid extraction and detection processes can be monitored simultaneously. Reagent kits for viral genes encoding the SARS-CoV-2 envelope and nucleocapsid proteins and RNA-dependent RNA polymerase have been developed by Roche Diagnostics for use with EAV reagents. 8 This retrospective study evaluated the detection of SARS-CoV-2 nucleic acids in clinical samples using the N and N2 assays, as described in the Pathogen Detection Manual 2019-nCoV, and the accuracy of the nucleic acid extraction and detection processes, using the EAV reagent with the conventional and automatic nucleic acid extraction methods. A quality control chart was created based on the EAV control data obtained in this study. This study was approved by the ethics committee of Kyorin University, Tokyo, Japan (R02-042). Informed consent from the participants was not required. Between March and April 2020, nasopharyngeal swabs were collected from 117 patients with suspected but negative COVID-19. Among these, samples from 16 patients were subjected to the conventional nucleic acid extraction and those from 101 patients to the automatic nucleic acid extraction. For samples testing positive, PCR reagents, such as DNA polymerase, dNTP, and Mg 2+ were used for SARS-CoV-2 nucleic acid detection, which could affect the reaction system of the EAV control, and thus, such samples were excluded from the study. The test was performed by seven medical technicians. In the conventional and automatic nucleic acid extraction methods, 10 and 6 µl of the EAV control were used, respectively, and nucleic acid amplification and detection were performed using a multiplex PCR in the N and N2 assays. The CVs of the Cp values of the samples obtained using conventional or automatic nucleic acid extraction methods were 0.94-2.02% in the N assay and 1.14-1.96% in the N2 assay, which were considered reasonable ( Table 2 ). The X-bar control charts of the Cp values of samples obtained through the N and N2 assays, using the conventional nucleic acid extraction method, are presented in Figures 2 and 3 , respectively. In both charts, no cases deviated from the UCL or LCL, and no cases deviated from the recommended range of the EAV reagent (27-33) . The X-bar control charts of the Cp values obtained through the N and N2 assays, using the automatic nucleic acid extraction method, are presented in Figures 4 and 5 , respectively. In both charts, no cases deviated from the UCL or LCL, and no cases deviated from the recommended range of the EAV reagent. In this study, the CV values were as low as 0.94-2.02% in both the N and N2 assays, suggesting that the operation/reaction system was stable at all steps of detection when using either the conventional or automatic nucleic acid extraction method. The manual procedure for detecting SARS-CoV-2 nucleic acid was performed by seven medical technicians. The tests were stably performed, irrespective of the differences in the technical skills among the technicians. If the CV value increases, it is necessary to take measures, such as confirming the procedure and sample properties and changing the reagents. In addition, the Cp value of the EAV control was within the range of the UCL and LCL for all the samples processed using either the conventional or automatic nucleic acid extraction method, suggesting that the tests were stably performed. The CV of the samples processed using the automatic nucleic acid extraction method was larger than that of the samples processed using the conventional method. This could be attributed to the fact that the latter involves RNA extraction, but the former involves total nucleic acid extraction, and the reaction of the EAV reagent is inhibited by the presence of mixed nucleic acids. In this study, the tests were performed with a limited quantity of reagents and were subject to time constraints owing to the pandemic. It was not possible to collect the EAV reagent data in In addition to the internal quality control, the quality of testing at a facility can be further assured by implementing external quality control, such as participation in the College of American Pathologists surveys. In conclusion, the calculated EAV control Cp values in our study were within the recommended range for the reagent, and there was almost no deviation from the UCL and LCL. Therefore, in the N and N2 assays described in the Pathogen Detection Manual 2019-nCoV, the operation and reaction systems at all steps of SARS-CoV-2 nucleic acid detection can be considered stable, regardless of the extraction method used. Generating an X-bar control chart based on the calculated Cp values using quality control substances, such as the EAV reagent, is possible in any laboratory, as long as the kit reagents are published, and the test method is probable. The quality control charts were very useful while performing conventional PCR. The use of such a quality control method could minimize errors in each sample and guarantee the accuracy of the test results. However, this retrospective study was conducted with samples from only one institution and utilized only one detection method. Therefore, to obtain reliable results, future studies should assess data collected from multiple institutions, and on a larger scale. The data that support the findings of this study are available from the corresponding author upon reasonable request. Clinical features of patients infected with 2019 novel coronavirus in Wuhan Early transmission dynamics in Wuhan, China, of novel coronavirus-infected pneumonia Outbreak of patients with pneumonia associated with coronavirus (1st case) National Institute of Infectious Diseases. Manual for the detection of pathogen 2019-nCoV Ver.2.6. 2020 Development of standards for baseline quality in quality management of molecular-diagnostic testing Perceptive of laboratory diagnosis of SARS-CoV-2 using nucleic acids Comparison of two real-time reverse transcription polymerase chain reaction assays for the detection of Equine arteritis virus nucleic acid in equine semen and tissue culture fluid Detection of 2019 novel coronavirus (2019-nCoV) by real-time RT-PCR European Centre for Disease Prevention and Control. Threat assessment brief: rapid increase of a SARS-CoV-2 variant with multiple spike protein mutations observed in the United Kingdom World Health Organization. SARS-CoV-2 variant-United Kingdom of Great Britain and Northern Ireland COVID-19 Corona Virus South African Resource Portal. New COVID-19 variant identified in SA Emergence and rapid spread of a new severe acute respiratory syndrome-related coronavirus 2 (SARS-CoV-2) lineage with multiple spike mutations in South Africa. medRxiv European Centre for Disease Prevention and Control. Risk assessment: risk related to spread of new SARS-CoV-2 variants of concern in extraction EAV, equine arteritis virus the EU/EEA-first update Distinct patterns of emergence of SARS-CoV-2 spike variants including N501Y in clinical samples in Columbus Ohio World Health Organization. Tracking SARS-CoV-2 variants