University of Birmingham develops rapid COVID-19 test

Published: 5-Jan-2021

Researchers say the technique could be applied to any RNA-based infectious agent or disease biomarker (including cancer), so in the long-term, may extend beyond SARS-CoV-2

University of Birmingham researchers have invented a COVID-19 test that reportedly reduces testing time from 30 minutes to under five.

The method is described in a preprint paper (yet to be peer-reviewed) published on MedRxiv, where the researchers also demonstrate the rapidity and sensitivity of their method using patient sample RNA provided by Public Health England.

Professor Tim Dafforn from the University’s School of Biosciences said: “We have designed a new method for testing that combines the ease of use and speed of lateral flow testing with the inherent sensitivity of an RNA test. It features reagents that can be used in existing point of care devices and meets the need for testing in high throughput, near-patient, settings where people may be waiting in line for their results.”

The current standard is the Reverse Transcription Polymerase Chain Reaction (RT-PCR) test. It takes more than an hour per sample, and has two steps. Although single temperature processes have been developed this year, reducing this step below 20 minutes has proved challenging. Lateral flow tests, which measure the presence of antibodies, can take up to 30 minutes.

The researchers created a novel single-step approach for converting viral RNA into DNA, and combined it with a known technique called Exponential Amplification Reaction (EXPAR), which increases DNA concentration to detectable levels at a constant temperature. They are calling the method Reverse Transcriptase Free EXPAR (RTF-EXPAR) testing.

University of Birmingham Enterprise has filed a patent application covering the method and its use in diagnostic equipment, and is now seeking to license the patent for rapid product development.

The method uses a DNA sequence (called Binder DNA) that recognises and binds to SARS-CoV-2 viral RNA and an enzyme (BstNI) that recognises the Binder DNA and cuts a short section from it when viral RNA is present. Once this has occurred, the viral RNA is free to bind to more Binder DNA and the cycle is repeated. The test detects the output of this cycle.

The method was tested by introducing BstNI, Binder DNA, and SARS-CoV-2 samples to EXPAR reagents and incubating at a constant temperature of 50°C. These conditions yielded test results in 4.00 +/- 0.72 minutes for the positive sample. No signal was observed for the negative (control) sample after 10 minutes of incubation. The concentration of SARS-CoV-2 RNA in the positive sample was 72.7 copies/µL, a value up to ten times lower than the average viral load found in COVID-19 patient samples.

The method was developed to reduce time and increase throughput in COVID-19 testing. However the technique could be applied to any RNA-based infectious agent or disease biomarker (including cancer), so in the long-term, the use of RTF-EXPAR may extend beyond SARS-CoV-2.

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