Sensitivity of different RT-qPCR solutions for SARS-CoV-2 detection.
Date
2020Abstract
Objectives: The ongoing COVID-19 pandemic continues to impose demands on diagnostic screening. In
anticipation that the recurrence of outbreaks and the measures for lifting the lockdown worldwide may
cause supply chain issues over the coming months, this study assessed the sensitivity of a number of onestep retrotranscription and quantitative polymerase chain reaction (RT-qPCR) solutions to detect SARSCoV-2.
Methods: Six different RT-qPCR alternatives were evaluated for SARS-CoV-2/COVID-19 diagnosis based on
standard RNA extractions. The one with best sensitivity was also assessed with direct nasopharyngeal
swab viral transmission medium (VTM) heating; thus overcoming the RNA extraction step.
Results: A wide variability in the sensitivity of RT-qPCR solutions was found that was associated with a
range of false negatives from 2% (0.3–7.9%) to 39.8% (30.2–50.2%). Direct preheating of VTM combined
with the best solution provided a sensitivity of 72.5% (62.5–81.0%), in the range of some of the solutions
based on standard RNA extractions.
Conclusions: Sensitivity limitations of currently used RT-qPCR solutions were found. These results will
help to calibrate the impact of false negative diagnoses of COVID-19, and to detect and control new SARSCoV-2 outbreaks and community transmissions.