Abstract
BackgroundSARS-CoV-2 RT-PCR assays are more sensitive than rapid antigen detection assays (RDT) and can detect viral RNA even after an individual is no longer infectious. RDT can reduce the time to test and the results might better correlate with infectiousness.AimWe assessed the ability of five RDT to identify infectious COVID-19 cases and systematically recorded the turnaround time of RT-PCR testing.MethodsSensitivity of RDT was determined using a serially diluted SARS-CoV-2 stock with known viral RNA concentration. The probability of detecting infectious virus at a given viral load was calculated using logistic regression of viral RNA concentration and matched culture results of 78 specimens from randomly selected non-hospitalised cases. The probability of each RDT to detect infectious cases was calculated as the sum of the projected probabilities for viral isolation success for every viral RNA load found at the time of diagnosis in 1,739 confirmed non-hospitalised COVID-19 cases.ResultsThe distribution of quantification cycle values and estimated RNA loads for patients reporting to drive-through testing was skewed to high RNA loads. With the most sensitive RDT (Abbott and SD Biosensor), 97.30% (range: 88.65–99.77) of infectious individuals would be detected. This decreased to 92.73% (range: 60.30–99.77) for Coris BioConcept and GenBody, and 75.53% (range: 17.55–99.77) for RapiGEN. Only 32.9% of RT-PCR results were available on the same day as specimen collection.ConclusionThe most sensitive RDT detected infectious COVID-19 cases with high sensitivity and may considerably improve containment through more rapid isolation and contact tracing.
Highlights
SARS-CoV-2 RT-PCR assays are more sensitive than rapid antigen detection assays (RDT) and can detect viral RNA even after an individual is no longer infectious
By 3 February 2022, more than 90 million coronavirus disease (COVID-19) cases and 960,000 related deaths had been reported in the European Union and European Economic Area (EU/EEA) and it has been challenging for public health authorities to keep up the test, trace and isolate (TTI) strategy [1]
A database of the public health service RotterdamRijnmond with RT-PCR-confirmed COVID-19 cases detected between 26 May and 5 September 2020 was linked with the laboratory database with viral load data of the Erasmus MC to assess the relationship between viral load and days after disease onset
Summary
SARS-CoV-2 RT-PCR assays are more sensitive than rapid antigen detection assays (RDT) and can detect viral RNA even after an individual is no longer infectious. By 3 February 2022, more than 90 million coronavirus disease (COVID-19) cases and 960,000 related deaths had been reported in the European Union and European Economic Area (EU/EEA) and it has been challenging for public health authorities to keep up the test, trace and isolate (TTI) strategy [1]. The purpose of this TTI strategy is to stop transmission chains and reduce the impact of COVID-19.
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