New Faster COVID-19 Test Avoids RNA Degradation and Time-Consuming Extraction

Diagnostic testing remains a crucial tool in the fight against the COVID-19 pandemic. Standard tests for detection of SARS-CoV-2 involve amplifying viral RNA to detectable levels using RT-qPCR. But first, the RNA must be extracted from the sample. Manufacturers of RNA extraction kits have had difficulty keeping up with demand during the COVID-19 pandemic, hindering testing capacity worldwide. With new virus variants emerging, the need for better, faster tests is greater than ever. The team used a chelating agent made by Bio-Rad Laboratories called Chelex 100 resin to preserve SARS-CoV-2 RNA in samples for detection by RT-qPCR.

To validate the test, the team collected patient samples and stored them in either viral transport media, or the newly developed chelating-resin-buffer at the NIH Symptomatic Testing Facility. The samples in viral transport media were tested by the COVID-19 testing team using conventional RNA extraction and RT-qPCR testing. The samples in the chelating-resin-buffer were heated and the viral RNA was, then, tested by RT-qPCR. The new preparation significantly increased the RNA yield available for testing, compared to the standard method.

“We used nasopharyngeal and saliva samples with various virion concentrations to evaluate whether they could be used for direct RNA detection,” said Bin Guan, Ph.D., a fellow at the Ophthalmic Genomics Laboratory at NEI. “The answer was yes, with markedly high sensitivity. Also, this preparation inactivated the virus, making it safer for lab personnel to handle positive samples.”

“We think this novel methodology has clear benefits of increasing sensitivity, cost and time savings for testing,” said Robert B. Hufnagel, M.D., Ph.D., chief of the NEI Medical Genetics and Ophthalmic Genomic Unit, “The method stabilizes the RNA at room temperature for easier transport, storage, and handling in clinical settings.”

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