1. Main points
In this bulletin, we report percentages of the population that are estimated to have antibodies against SARS-CoV-2, the specific virus that causes coronavirus (COVID-19).
In the week beginning 13 June 2022, the percentage of people estimated to have antibodies against SARS-CoV-2 at or above the antibody level of 179 nanograms per millilitre (ng/ml):
in England, was 97.7% of adults (95% credible interval: 97.4% to 97.9%)
in Wales, was 97.6% of adults (95% credible interval: 97.1% to 98.1%)
in Northern Ireland, was 97.9% of adults (95% credible interval: 96.3% to 98.7%)
in Scotland, was 97.0% of adults (95% credible interval: 96.4% to 97.5%)
About this bulletin
Our antibody positivity estimates are subject to continuous review as the coronavirus pandemic evolves.
In this bulletin we report weekly antibody positivity estimates at or above the antibody levels of 179 ng/ml, for those aged 16 years and over by age group, for UK countries. Estimates for children in Great Britain are subject to further development and have not been updated in this publication.
We last reported antibody positivity estimates at or above the 42 ng/ml level in our Coronavirus (COVID-19) Infection Survey, antibody data, UK: 20 April 2022 bulletin. Nearly 100% of people are estimated to have antibodies at or above this level, so these data have not been updated. Positivity estimates at or above the 800 ng/ml level were published on 4 May 2022, but have not been updated as they are undergoing further development. Estimates of the percentage of the population with antibodies at or above these previously published thresholds are not comparable with estimates at or above the 179 ng/ml level in this release.
Further information on antibody test level, and the link between antibodies and infections can be found in our recent blog post, The relationship between COVID-19 infections and antibodies: What do the data show?
Antibody positivity estimates for UK countries and regions in England can be found in our Coronavirus (COVID-19) antibody data for the UK: dataset.Nôl i'r tabl cynnwys
2. Antibodies by age group
In the week beginning 13 June 2022, the percentage of the adult population estimated to have antibodies against SARS-CoV-2 at or above the level of 179 nanograms per millilitre (ng/ml) remained high across the UK.
Figure 1: The percentage of the population estimated to have antibodies against SARS-CoV-2 remained high for UK adults in the week beginning 13 June 2022
Modelled percentage of the adult population with levels of antibodies against SARS-CoV-2 at or above 179 nanograms per millilitre (ng/ml), by age group, UK countries, 7 December 2020 to 19 June 2022
All results are provisional and subject to revision.
These statistics refer to antibody tests for individuals living in private households.
In Northern Ireland, the number of people sampled is low compared with England, Wales and Scotland; therefore, adults aged 50 to 69 years are included in the same age group, and those aged 70 years and over are included in the same age group.
All estimates are subject to uncertainty, given that a sample is only part of the wider population. A credible interval gives an indication of the uncertainty of an estimate from data analysis.
The denominators used for antibodies are the total for each age group in the sample at that particular time point, then post-stratified by the mid-year population estimate.
Not all samples tested produce a conclusive result, and as part of continuous improvement we are now retesting samples where a result was not obtained. Therefore, some estimates from 2022 may change.
Download the dataNôl i'r tabl cynnwys
We measure the levels of antibodies in people who live in private households to understand who has had coronavirus (COVID-19) in the past and the impact of vaccinations. It takes between two and three weeks after infection or vaccination for the body to make enough antibodies to fight the infection. Antibodies can help prevent individuals from getting the same infection again. Once infected or vaccinated, antibodies remain in the blood at low levels and can decline over time.
This is the scientific name given to the specific virus that causes COVID-19.
A credible interval gives an indication of the uncertainty of an estimate from data analysis. A 95% credible interval is calculated so that there is a 95% probability of the true value lying in the interval.
5. Measuring the data
The antibody positivity estimates for the most recent week in this publication include data from 13 to 19 June 2022.
Our Coronavirus (COVID-19) Infection Survey: methodology article provides further information around the survey design, how we process data, and how data are analysed. Our Quality and Methodology Information explains the strengths and limitations of the data, methods used, and data uses and users.
More information on measuring the data is available in the Coronavirus (COVID-19) Infection Survey statistical bulletin.
The analysis on antibodies in this bulletin is based on blood test results taken from a randomly selected subsample of individuals aged 8 years and over who live in private households. The survey excludes those in hospitals, care homes and other communal establishments. The blood samples are used to test for antibodies against SARS-CoV-2.
Antibodies and immunity
Antibody positivity is defined by having a fixed concentration of antibodies in the blood. A negative test result occurs if there are no antibodies, or if antibody levels are too low to reach a level at the time of testing. It does not mean that their antibody level is at zero or that a person has no protection against COVID-19. Additionally, there are other parts of the immune system that will offer protection, for example, a person's T-cell response. This will not be detected by blood tests for antibodies. A person's immune response is affected by a number of factors, including health conditions and age.
Our blog on antibodies and immunity gives further information on the link between antibodies and immunity and the vaccine programme. Our blog on vaccine effectiveness provides information on the effectiveness of vaccinations against Alpha and Delta variants, which is based on research conducted by partners from the University of Oxford.
Measuring antibody positivity
Our 179 nanograms per millilitre (ng/ml) level is based on research by our academic partners, and reflects the percentage of adults who would have been likely to have a strong enough antibody response to provide some protection from getting a new COVID-19 infection with the Delta variant. This level is higher than our previously reported standard level of 42 ng/ml. Antibody levels below this do not mean that a person has no antibodies or immune protection at all. This antibody level was identified as providing a 67% lower risk of getting a new COVID-19 infection with the Delta variant after two vaccinations with either Pfizer or AstraZeneca vaccines, compared with someone who was unvaccinated and had not had COVID-19 before. It is unlikely that this level will provide equivalent protection against the Omicron variant, and we will keep the level used in our analysis of antibodies under regular review.
The test used for spike antibodies measures their concentration in ng/ml. The antibody level of 179 ng/ml corresponds to 100 binding antibody units (BAU)/ml, using the World Health Organization's (WHO) standardised units (enabling comparison across different antibody assays).
Further information on antibody test levels, and the link between antibodies and infections can be found in our recent blog post, The relationship between COVID-19 infections and antibodies: What do the data show?Nôl i'r tabl cynnwys
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