UEA research on virus detection method paves way for quicker pandemic response
They've found that genotyping can detect variants six days faster than traditional whole genome sequencing
A quick method for detecting virus variants paves the way for a speedier response to pandemics, scientists in Norfolk have said.
Research from the University of East Anglia, backed by the UK Health Security Agency (UKHSA) found that genotyping - a method for picking up tiny genetic differences - can detect variants six days faster than traditional whole genome sequencing.
This means that changes in viruses, as well as new Covid variants, can be analysed more quickly and the information sent to public health professionals on the front line.
As a result, isolating infected people and contact tracing could become much quicker in a pandemic, slowing down the spread of deadly illnesses.
The new research, published in The Lancet Microbe, analysed data for more than 115,000 cases where Covid variant information was available from both genotyping and whole genome sequencing.
Researchers found that genotyping - which began trialling in UK Covid labs later in the pandemic - gave very accurate results, at well over 90%, and was comparable to whole genome sequencing.
The results also came back in three days, which is six days quicker than the nine days for whole genome sequencing.
"This certainly could be used for other viruses"
Lead researcher Professor Iain Lake, from the University of East Anglia's School of Environmental Sciences, told the PA news agency the technique could be applied to viruses other than Covid, giving the potential to capture information much more quickly than before.
"This certainly could be used for other viruses," he said. "Although the (research) paper focuses on Covid, it has wider applicability as a rapid test for variants, which doesn't involve all the costs and time of genome sequencing.
"Once you know what variants you're looking for (using whole genome sequencing), you can then train genotyping to detect those specific variants a lot more quickly.
"So it allows you to to then respond a lot faster, and potentially more cheaply.
"You can also scale that capacity ... you don't need large numbers of new laboratories."
He said genotyping enabled a nine-fold increase in the quantity of samples tested for variants, adding: "This meant that variants were detected among many more people.
"Local control measures such as contact tracing could therefore happen more rapidly.
"Genotyping can be applied to finding variants in a wide range of organisms in humans and animals - so it has huge potential for guiding public health decision-making and disease control globally in future."
"Research like this will help us continue to build on our capability in this area"
Professor Susan Hopkins, UKHSA's chief medical adviser, said: "The world-leading genomics expertise that UKHSA and other institutions across the UK were able to draw on throughout the pandemic was critical to the UK response to Covid-19.
"Research like this will help us continue to build on our capability in this area and ensure that the UK is as well-prepared as possible to respond quickly to emerging threats to public health in the future."
Professor Dame Anna Dominiczak, chief scientist for health in Scotland, said: "Research such as this is really important to ensure that we build upon the huge advances in testing that occurred during Covid to bolster our defences against future pandemic threats."