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COVID-19: Researchers develop new inexpensive test that doesn’t use scarce reagents

COVID-19 Researchers

Scientists have developed a new method of testing for COVID-19 that may lead to an inexpensive diagnosis technique in developing countries where chemical supplies are in short supply.

The new testing method which has been described in the journal PLOS Biology, doesn’t make use of key reagents but still delivers an accurate result.

The method omits the step in the widely used reverse transcription polymerase chain reaction (RT-PCR) test where the scarce reagents are needed, but has an accuracy of 92 per cent, missing only the lowest viral loads, a PTI report said.

Also read: COVID-19: WHO, partners roll out faster tests for poorer nations

The researchers, including those from the University of Washington in the US, tested the new method using 215 COVID-19 samples that RT-PCR tests had shown were positive, with a range of viral loads, and 30 that were negative.

They said it correctly identified 92 per cent of the positive samples and 100 per cent of the negatives. While the positive samples the new test failed to catch had very low levels of the virus, the scientists said ultra-sensitive tests that identify individuals with even the smallest viral loads may not be needed to slow the spread of the disease.

“It was a very positive result,” Jason Botten senior author of the study from the University of Vermont in the US,was quoted as saying by the report. “You can go for the perfect test, or you can use the one that”s going to pick up the great majority of people and stop transmission,” Botten said. While standard PCR tests have three steps, the version developed by the researchers has only two, the study noted. “In step 1 of the RT-PCR test, you take the swab with the nasal sample, clip the end and place it in a vial of liquid, or medium. Any virus on the swab will transfer from the swab into the medium,” Botten said.

“In step 2, you take a small sample of the virus-containing medium and use chemical reagents, the ones that are often in short supply, to extract the viral RNA. In step 3, you use other chemicals to greatly amplify any viral genetic material that might be there. If virus was present, you”ll get a positive signal,” he explained.

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