key: cord-0759104-gag8i5zk
authors: Kalil, Mohammad Nur Amin; Yusof, Wardah; Ahmed, Naveed; Fauzi, Mohd Hashairi; Bakar, Mimi Azliha Abu; Sjahid, Afifah Sjamun; Hassan, Rosline; Yean Yean, Chan
title: Performance Validation of COVID-19 Self-Conduct Buccal and Nasal Swabs RTK-Antigen Diagnostic Kit
date: 2021-11-30
journal: Diagnostics (Basel)
DOI: 10.3390/diagnostics11122245
sha: 820b456a8ed2038249eb065dead5d5fdb8ad48f1
doc_id: 759104
cord_uid: gag8i5zk

The antigen rapid diagnostic test (Ag-RDT) is an immunodiagnostic test that detects the presence of viral proteins (antigens) expressed by the COVID-19 virus in a sample from a patient’s respiratory tract. This study focused on evaluating the performance of self-conduct buccal and nasal swabs RTK-antigen test compared to nasopharyngeal swab RTK-based COVID-19 diagnostic assays, Panbio™ COVID-19 Ag Rapid Test Device (Nasopharyngeal) (Abbott Rapid Diagnostics Jena GmbH, Jena, Germany) used in hospitals for first-line screening. The sensitivity and specificity of the paired RTK-Ag test in detecting the an-tigen were calculated at 96.4% and 100%, respectively. Fisher exact tests showed the association between nasopharyngeal swabs RTK-Ag assay and buccal-nasal swabs RTK-Ag from Prodetect(TM) is significant (p-values < 0.001). The result showed that a self-conducted buccal and nasal RTK-antigen rapid test by the patients is comparable to the results obtained from a rapid test device conducted by trained medical personnel using a nasopharyngeal swab.

COVID-19 is an infectious disease caused by the SARS-CoV-2 virus. The clinical spectrum of the disease is heterogeneous, ranging from asymptomatic to severe respiratory disease and death commonly manifested with fever, cough, loss of sense of smell and shortness of breath [1] . Diagnoses are made from nasopharyngeal swab specimens and the virus is identified using quantitative reverse transcription-PCR (RT-qPCR) assays performed according to World Health Organization (WHO) guidelines to detect SARS-CoV-2. However, detecting antibodies for previous exposure cases through rapid test kit (RTK)-antibody rapid lateral flow assays is uncertain for seroprevalence studies [2, 3] .

Analysis of RT-qPCR utilizing nasopharyngeal swabs, throat swabs, or saliva is the gold standard for COVID-19 diagnosis [4, 5] . There are also developed RT-qPCR kits that do not need viral RNA extraction and high-throughput RT-qPCR equipment [3] . Although such tests are commonly used in public health laboratories and larger, well-equipped hospitals, they are not accessible in small clinics. Consequently, human samples are transferred to facilities with RT-qPCR capacity, delaying test results for suspected COVID-19 patients [1] . The expensive and time-consuming RT-qPCR also necessitates specialized equipment and well-trained laboratory staff [6] .

In response to the continuously increasing SARS-CoV-2 infections and shortage of molecular testing capacity, biotechnology companies and diagnostic test manufacturers have been developing and selling different types of rapid diagnostic tests (RDTs) for use outside of laboratory settings as a home-based kit [7, 8] . The RDTs can be based on protein (antigen) to detect active SARS-CoV-2 infections from respiratory samples [9] or to detect human antibodies in our immune system generated in response to SARS-CoV-2 infection [10] .

The RDTs are user-friendly, cost-effective, and safe point-of-care testing (POCT); however, real-time performance and validation of these assays is still a topic of concern [11, 12] . The nasopharyngeal swab technique is invasive and may result in bleeding, with a higher risk of SARS-CoV-2 transmission to healthcare personnel [13] . On the other hand, saliva, buccal, and nasal swab collection are noninvasive and may be done safely outside hospitals. In addition, compared to nasopharyngeal swabs, self-collection of these types of samples may decrease the risk of SARS-CoV-2 transmission to healthcare personnel [14, 15] .

Ag-RDTs for COVID-19 was authorized for clinical usage in Malaysia and other countries, and their sensitivity was compared to that of various types of RT-qPCR [6, 16] . Although these Ag-RDTs may help identify COVID-19 patients in a short time, their sensitivity is critical in deciding how the community should utilize them.

The current study helps understand the performance evaluation of self-conduct buccal and nasal swabs RTK-antigen test to generate knowledge for current and long-term control and management outbreak in Malaysia. This research study focused on evaluating the performance of self-conduct buccal and nasal swabs RTK-antigen test compared to nasopharyngeal swab RTK-based COVID-19 diagnostic assays routinely used in hospitals for first-line screening. 

A total of 120 patients presenting with signs and symptoms of COVID-19 were recruited to evaluate the specificity, sensitivity and accuracy of COVID-19 s antigen self-kit using a buccal-nasal swab, Prodetect TM (Mediven Sdn Bhd, Penang, Malaysia). Before recruiting the patients, informed consent was obtained, and patients were tutored on the self-testing protocol. Inclusion criteria: (1) No age and gender limit on patients' recruitment;

(2) Only patients diagnosed with COVID-19 infection using nasopharyngeal swab antigen detection kit were recruited for this study.

Each patient was asked to conduct the Prodetect TM using concurrent two types of samples (buccal and nasal swabs) by themselves. In order to validate the accuracy of the test protocol, the testing protocol was observed by trained medical personnel. The sample collection and disposal of the kit are in accordance with the standard operating procedures (SOPs) for COVID-19 as recommended by World Health Organization (WHO). The patients' COVID-19 diagnosis was counter-checked from Malaysia's Public Health Laboratory Information System (SIMKA) database (https://simka.moh.gov.my/, accessed on 1 October 2021).

Prodetect TM COVID-19 Antigen rapid self-test is a qualitative membrane-based immunoassay to detect SARS-CoV-2 nucleocapsid protein antigens in the human buccal and nasal specimen. During the test, the specimen will react with SARS-CoV-2 nucleocapsid protein antibody-coated particles in the line region of the test device. The mixture migrates upward on the membrane chromatographically by capillary action and reacts with SARS-CoV-2 nucleocapsid protein antibody in the test line region. If the specimen contains SARS-CoV-2 antigens, a colored line appears in the test line region. If the specimen does not contain SARS-CoV-2 antigen, a colored line will not appear in the test line region, indicating a negative result. A colored line at the Control region serves as a procedure control, indicating that the test has been performed correctly.

For buccal swabs, before collecting saliva, the participant was asked to not place anything into his/her mouth, including food, drink, or tobacco products, for at least 10 min before sample collection. A sterile swab was used to rub up and down the oral cavity at least five times on both cheeks before the swab was placed and mixed carefully with the buffer in the buffer tube.

For collecting the nasal swab specimen, the tip of a new sterile swab was inserted into the left and right nostril until a slight resistance (about 2 cm of the nose) was felt and gently rotated 5-10 times against the nasal wall. The swab was removed from the nasal cavity and mixed with the buffer to make an extraction sample. After the sample collection, both of the swabs were discarded according to the standard waste disposal guidelines.

Immediately after specimens collection, the test was performed by putting two drops of the extraction sample on the test device and incubated for 15 min at room temperature. The results appeared as colored lines, interpreted and reported based on a lateral flow mechanism, as shown in Figure 1. 2.4. Buccal-Nasal Prodetect TM RTK-Ag Self-test 2.4.1. Prodetect TM Buccal-Nasal Test Principle Prodetect TM COVID-19 Antigen rapid self-test is a qualitative membrane-based immunoassay to detect SARS-CoV-2 nucleocapsid protein antigens in the human buccal and nasal specimen. During the test, the specimen will react with SARS-CoV-2 nucleocapsid protein antibody-coated particles in the line region of the test device. The mixture migrates upward on the membrane chromatographically by capillary action and reacts with SARS-CoV-2 nucleocapsid protein antibody in the test line region. If the specimen contains SARS-CoV-2 antigens, a colored line appears in the test line region. If the specimen does not contain SARS-CoV-2 antigen, a colored line will not appear in the test line region, indicating a negative result. A colored line at the Control region serves as a procedure control, indicating that the test has been performed correctly.

For buccal swabs, before collecting saliva, the participant was asked to not place anything into his/her mouth, including food, drink, or tobacco products, for at least 10 min before sample collection. A sterile swab was used to rub up and down the oral cavity at least five times on both cheeks before the swab was placed and mixed carefully with the buffer in the buffer tube.

For collecting the nasal swab specimen, the tip of a new sterile swab was inserted into the left and right nostril until a slight resistance (about 2 cm of the nose) was felt and gently rotated 5-10 times against the nasal wall. The swab was removed from the nasal cavity and mixed with the buffer to make an extraction sample. After the sample collection, both of the swabs were discarded according to the standard waste disposal guidelines.

Immediately after specimens collection, the test was performed by putting two drops of the extraction sample on the test device and incubated for 15 min at room temperature. The results appeared as colored lines, interpreted and reported based on a lateral flow mechanism, as shown in Figure 1 . 

The data were analyzed using SPSS version 26.0 (IBM, New York, USA). The Prodetect TM buccal-nasal swabs RTK-Ag's diagnostic performance was evaluated by comparing 

The data were analyzed using SPSS version 26.0 (IBM, New York, NY, USA). The Prodetect TM buccal-nasal swabs RTK-Ag's diagnostic performance was evaluated by comparing to the WHO-recognized Nasopharyngeal swabs RTK-Ag assay as the gold standard for diagnostic sensitivity and specificity determination. Person Chi-square (χ 2 ) and Fisher Exact Tests were used to analyze the association between Nasopharyngeal swabs RTK-Ag assay and buccal-nasal swabs RTK-Ag from Prodetect TM . p-values less than 0.05 were considered to indicate a significant association.

Study participants (n = 120) who had previously tested positive for SARS-CoV-2 by RTK-Ag test (nasopharyngeal) test performed at Emergency Department of Hospital Universiti Sains Malaysia (HUSM) were recruited with no age and gender limitation. Table 1 reports the baseline demographics of study participants who tested positive and negative for the buccal-nasal Prodetect TM (Mediven Sdn Bhd, Penang, Malaysia) and nasopharyngeal RTK-antigen test such as Panbio™ COVID-19 Ag Rapid Test Device (Nasopharyngeal) (Abbott Rapid Diagnostics Jena GmbH, Jena, Germany) for SARS-CoV-2 (Table 1) . Out of 120 patients recruited, buccal-nasal Prodetect TM result showed 108 truepositives, eight true negative and four false-negatives compared to nasopharyngeal RTK-Ag as a reference standard. The sensitivity and specificity of the paired RTK-Ag test in detecting the antigen by lateral flow were calculated at 96.4% and 100%, respectively. The test's positive predictive value (PPV) is 100%, while the negative predictive value (NPV) is 66.7% (Table 2) . Fisher exact tests showed the association between nasopharyngeal swabs RTK-Ag assay and buccal-nasal swabs RTK-Ag from Prodetect TM is significant (p-values < 0.001) ( Table 3) . 

We report on our evaluation of SARS-CoV-2 antigen-detecting lateral flow device (LFD), focusing on the Prodetect TM COVID-19 Antigen Rapid Self-Test, which has a sensitivity of 96.4% and specificity of 100%, using nasopharyngeal RTK-antigen test carried out by trained medical personnel for positive and negative status. The 100% positive predictive value (PPV) of Prodetect TM means the probability of correctly identifying people who contracted the SARS-CoV-2 infections is total. Its negative predictive value (NPV), which means the probability of correctly identifying people who do not have a condition, is 66.7%. The result showed that a self-conducted buccal and nasal RTK-antigen rapid test by the patients is comparable to the results obtained from a rapid test device conducted by trained medical personnel using a nasopharyngeal swab. The lower sensitivity for the kit may be accounted for by the timeline of the disease in patients recruited when the test was carried out. Most COVID-19 patients delayed their hospital visits after the first onset of symptoms due to fever or seasonal flu symptoms similarity. A prior study suggested Ag-RDTs showed higher sensitivity in patients within seven days after onset of symptoms than those in the later course of the disease [17] . This correlates with a study showing samples from patients within the first week after symptom onset contain the highest virus concentrations [18] .

A systematic review and meta-analysis were carried out by Brümmer and colleagues [17] to analyze the accuracy of rapid antigen diagnostics for SARS-CoV-2 compared to nucleic acid detection from 133 analytical and clinical studies resulted in 214 clinical accuracy datasets with 112,323 samples. The meta-analysis showed that the pooled Ag-RDT sensitivity and specificity were 71.2% (95% CI 68.2% to 74.0%) and 98.9% (95% CI 98.6% to 99.1%), respectively. The pooled sensitivity for the 61 different types of Ag-RDT kit reported is comparably low to the golden standard of SARS-CoV-2 diagnosis, RT-qPCR with pooled diagnostic sensitivity and specificity using Reitsma's bivariate models at 92.7% (95% CI 88.3 to 95.6%) and 92.9% (95% CI 87.2 to 96.2%), respectively [19] .

The WHO has released interim guidance for Ag-RDTs to meet the minimum performance requirement of 80% sensitivity and 97% specificity to diagnose active SARS-CoV-2 infection. WHO also recommended that Ag-RDTs are best performed in symptomatic individuals with high viral load early in infection, especially in low-resource settings without rapid access to nucleic acid amplification technology (NAAT) [20] . The comparable data between Ag-RDT and nucleic acid detection by RT-qPCR is indicative of Ag-RDT ability to detect SAR-CoV-2 infection and its ability to control the pandemic in low-resource settings by the general public. The utilization of Ag-RDT in the community, despite its limited sensitivity, is likely to identify highly contagious individuals, substantially decreasing transmission rapidly. Apart from that, using Ag-RDTs as the first-line screening test, especially in emergency departments or COVID testing outpatient clinics, will provide a more rapid and cost-effective diagnosis in a high prevalence area than NAAT detection.

A reliable rapid antigen test such as Prodetect TM and preventative measures such as continuous mask-wearing, social distancing, hand hygiene, and any other actions advised by the World Health Organization (WHO) can support a safer return post-pandemic daily life by swiftly identifying and isolating infectious individuals. In countries with high infectivity rates such as Malaysia, with its' R-Naught (Ro) fluctuating between 0.8 to 1.0 from August to October 2021 [21] , reliable, accessible, and affordable diagnostic testing for SARS-CoV-2 is a critical component to a comprehensive prevention and control strategy for COVID-19.

The sensitivity and specificity of the paired RTK-Ag test in detecting the antigen were at 96.4% and 100%, respectively. The test's positive predictive value (PPV) is 100%, while the negative predictive value (NPV) is 66.7%. This showed that using a self-conducted buccal and nasal RTK-antigen rapid test is comparable to a rapid test device conducted by trained medical personnel using a nasopharyngeal swab. This indicates that the general public can rapidly utilize self-test Ag-RDT to control the pandemic in low-resource settings. 

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Acknowledgments: NA is supported by USM's Graduate Research Assistant Scheme.

The authors declare no conflict of interest.