This article is taken from a Government Press Release published 17 May 2020.
A large scale Government-funded study to help to track the extent of the spread of coronavirus and to help understand levels of immunity and the role of genetics has started with antibody testing with up to 20,000 people of all ages and walks of life due to take part for at least 6 months
The research will measure blood antibodies to help determine what proportion of the population has already had the infection, the duration of immunity after being infected, and why the virus affects people differently.
Led by UK Biobank and supported by the Department for Health and Social Care (DHSC), the study, which was developed with the Wellcome Trust, also draws on the world-leading scientific expertise of the University of Oxford. It forms part of Pillar 4 of the Government’s COVID-19 testing strategy to conduct UK-wide surveillance testing to learn more about the spread of the virus.
In total, 20,000 thousand people will take part. The study participants will be chosen from existing, consented UK Biobank volunteers, as well as their adult children and grandchildren. This is the first time UK Biobank has opened up a research study to the next generation of participants, which will help to ensure that all regions, ages and socio-economic groups are represented .
Each month, participants will be asked to provide a sample of blood using a finger‐prick device, and to complete a short questionnaire about any relevant symptoms they may have experienced. The de-identified samples will be returned to UK Biobank for processing before being sent for validated antibody testing at the University of Oxford.
This information will help inform future Government strategy on the ongoing response to the virus, including lockdown and social distancing measures. The first results from initial participants are expected to be available in early June.
Secretary of State for Health and Social Care Matt Hancock said:
“Our response to this pandemic is rightly guided by the science and based on the best available evidence – so I’m determined to do everything we can to learn more about coronavirus.
“This UK Biobank study will build our understanding of the rate of COVID-19 infection in the general population and, importantly, it will add to our knowledge about the risk factors that mean the virus can affect individuals differently.
“Alongside the ongoing ONS and Imperial College research, the results of this study will assist our virus modelling and inform future plans for managing the pandemic.”
Established by the Wellcome Trust and the Medical Research Council, UK Biobank has been following the health of 500,000 UK participants over the last 10 years through detailed health records, genetic and lifestyle data. As a result, it is uniquely well-placed to investigate whether the immune response to coronavirus differs between people with different genetic backgrounds.
UK Biobank Principal Investigator, Sir Rory Collins said:
“We believe most people have mild or no symptoms of infection with coronavirus, but a small proportion fall very ill. This study will help determine the proportion of people who have been infected and, crucially, how long they are immune from further infection.
“Much better understanding of what proportion of the population has been infected, how long antibodies to coronavirus stay in the blood, and whether immunity wears off, are vital to managing this pandemic.”
This is the third coronavirus surveillance testing survey to be announced. The UK Biobank research will complement data generated by the ONS population study (launched on 23 April). Both studies will take blood samples to provide data on how many people have antibodies to the virus.
The Imperial College/Ipsos Mori testing programme (launched on 29 April) is using swabs to understand the level of active infection in participants. It is also undertaking user acceptance testing of antibody tests designed for home use.
Public Health England is also analysing blood samples from people across a wide range of ages, locations and professions, to help detect past and current rates of infection as well as any changes in the virus.