Author: Wernike, Kerstin; Keller, Markus; Conraths, Franz J.; Mettenleiter, Thomas C.; Groschup, Martin H.; Beer, Martin
Title: Pitfalls in SARSâ€CoVâ€2 PCR diagnostics Cord-id: xg3fit4m Document date: 2020_6_14
ID: xg3fit4m
Snippet: To combat the COVIDâ€19 pandemic, millions of PCR tests are performed worldwide. Any deviation of the diagnostic sensitivity and specificity will reduce the predictive values of the test. Here, we report the occurrence of contaminations of commercial primers/probe sets with the SARSâ€CoVâ€2 target sequence of the RTâ€qPCR as an example for pitfalls during PCR diagnostics affecting diagnostic specificity. In several purchased inâ€house primers/probe sets, quantification cycle values as low a
Document: To combat the COVIDâ€19 pandemic, millions of PCR tests are performed worldwide. Any deviation of the diagnostic sensitivity and specificity will reduce the predictive values of the test. Here, we report the occurrence of contaminations of commercial primers/probe sets with the SARSâ€CoVâ€2 target sequence of the RTâ€qPCR as an example for pitfalls during PCR diagnostics affecting diagnostic specificity. In several purchased inâ€house primers/probe sets, quantification cycle values as low as 17 were measured for negative control samples. However, there were also primers/probe sets that displayed very lowâ€level contaminations, which were detected only during thorough internal validation. Hence, it appears imperative to preâ€test each batch of reagents extensively before use in routine diagnosis, to avoid falseâ€positive results and low positive predictive value in lowâ€prevalence situations. As such, contaminations may have happened more widely, COVIDâ€19 diagnostic results should be reâ€assessed retrospectively to validate the epidemiological basis for control measures.
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