FULL CLAIM: The SARS-CoV-2 infection rate is higher among vaccinated people than unvaccinated people in the UK; vaccines don’t protect from disease
The United Kingdom was the first country to authorize COVID-19 vaccines and to initiate the vaccine roll out in December 2020. Since then, 86% of the UK population above 12 has received at least two vaccine doses, as of 7 April 2022.
Although clinical trials and real world studies found that COVID-19 were effective at preventing illness and death, the impact of the nation’s large vaccination campaign has been a recurrent subject of misinformation. Some used biased comparison of mortality rates between vaccinated and unvaccinated people to promote the inaccurate claims that COVID-19 vaccines weaken the immune system or aren’t effective at preventing COVID-19 death. Health Feedback reviewed these claims on several occasions.
However, claims like this still continue to crop up. On 6 April, U.S. State Senator for New Mexico Gregg Schmedes published a Facebook post in which he claimed that “Unvaxxed have lowest infection rates in UK”, showing a graph of infection rates in the UK between 6 to 27 March 2022.
As we will explain below, while this comparison used official data, it is scientifically meaningless as it didn’t take into account other important factors that set vaccinated and unvaccinated people apart, besides vaccination status.
When comparing the rate of cases or deaths between two groups of people, for example between vaccinated and unvaccinated people, it is important to account for any other differences between them apart from vaccination status that could also affect their risk of getting sick. A failure to account for these differences could lead to a biased result and an incorrect conclusion. Health Feedback previously explained the pitfalls of such comparisons and the measures that epidemiological or clinical studies take to avoid them.
The claim under review is based on the weekly COVID-19 report of the UK Health Security Agency (UKHSA) of 31 March 2022. It used data from Table 14 of that report, which presented the rate of newly reported COVID-19 cases among vaccinated and unvaccinated groups between 6 March and 27 March 2022.
However, UKHSA clearly warned in its weekly report that a crude comparison without additional adjustment of the figures cannot provide meaningful information about vaccine effectiveness:
“The vaccination status of cases, inpatients and deaths should not be used to assess vaccine effectiveness because of differences in risk, behavior and testing in the vaccinated and unvaccinated populations.“
In a blog post, UKHSA listed some of the factors that can bias the results of a crude comparison of infection rates. One of them is the fact that the vaccination campaign began by prioritizing people with a higher risk of exposure to COVID-19, such as healthcare workers. This means that people who are more likely to develop COVID-19 are overrepresented among the vaccinated compared to the unvaccinated. This might lead to an increase in the number of cases among vaccinated people that is unrelated to vaccine effectiveness.
Another factor to consider is the potential behavioral difference between vaccinated and unvaccinated individuals. The UKHSA blog post cited two possible behavioral differences. Firstly, unvaccinated and vaccinated individuals may behave differently with respect to social interactions. For instance, vaccinated people may become less compliant about physical distancing measures which may increase the risk of infection, knowing that they benefit from vaccine-induced immunity. The increased risk of infection in this case is unrelated to vaccine effectiveness[1-3].
Second, unvaccinated and vaccinated individuals may differ in their healthcare-seeking behavior. If one group tends to seek medical attention and get tested more often, then the likelihood of detecting COVID-19 in that group will be higher. Therefore, they may be overrepresented among new COVID-19 cases. This is not because that group is more vulnerable to infection, but because the group gets tested more often.
A preprint—a scientific study that hasn’t yet been peer-reviewed by other scientists—reported that vaccinated people were more likely to seek out testing than unvaccinated individuals. Therefore, such a difference in behavior can affect the number of new COVID-19 cases detected in vaccinated and unvaccinated people.
Taken together, these factors indicate that one cannot directly compare the infection rates without additional steps to limit the risk of bias. In particular, differences in healthcare-seeking behavior can be accounted for by using a specific study design called a test-negative study[5,6].
In fact, the UKHSA stated that this method was employed to assess the effectiveness of COVID-19 vaccines while accounting for various biases, like the ones described in this review:
“These factors are all accounted for in our published analyses of vaccine effectiveness which uses the test-negative case control approach. This is a recommended method of assessing vaccine effectiveness that compares the vaccination status of people who test positive for COVID-19, with those who test negative.
This method helps to control for different propensity to have a test and we are able to exclude those known to have been previously infected with COVID-19. We also control for important factors including geography, time period, ethnicity, clinical risk group, living in a care home and being a health or social care worker.”
UKHSA listed in Table 5 of their report several vaccine effectiveness studies and preprints using the test-negative design. They reported that COVID-19 vaccines were effective at preventing illness, with effectiveness varying depending on the SARS-CoV-2 variant, the use of booster dose, and the elapsed time since vaccination[7-11].
These analyses showed that, when taking into consideration potential factors that may lead to bias, vaccines proved effective at protecting against COVID-19, with differences depending on the SARS-CoV-2 variant and the elapsed time since vaccination. Curiously, the Facebook post by Schmedes made no mention of this analysis.
In summary, a crude comparison of the infection rate between vaccinated and unvaccinated populations leads to misleading conclusions. While the data presented in Table 14 of the UKHSA weekly report took into account certain factors, such as age and the difference in population size between the vaccinated and the unvaccinated, it didn’t consider other potential biases that could be produced by differences in social interaction or healthcare-seeking behaviors. More carefully designed studies of vaccine effectiveness, which account for differences between the vaccinated and the unvaccinated apart from vaccination status, showed that vaccines are effective at preventing symptomatic infections.
- 1 – Usherwood et al. (2021) A model and predictions for COVID-19 considering population behavior and vaccination. Scientific Reports.
- 2 – Andersson et al. (2021) Anticipation of COVID-19 vaccines reduces willingness to socially distance. Journal of Health Economics.
- 3 – Chemaitelly et al. (2021) Waning of BNT162b2 Vaccine Protection against SARS-CoV-2 Infection in Qatar. The New England Journal of Medicine.
- 4 – Glasziou et al. (2022) Testing behaviour may bias observational studies of vaccine effectiveness. medRXiv.
- 5 – Ozaka & Fukushima (2019) Commentary: Test-Negative Design Reduces Confounding by Healthcare-Seeking Attitude in Case-Control Studies. Journal of Epidemiology.
- 6 – Dean et al. (2021) Covid-19 Vaccine Effectiveness and the Test-Negative Design. The New England Journal of Medicine.
- 7 – Bernal et al. (2021) Effectiveness of Covid-19 Vaccines against the B.1.617.2 (Delta) Variant. The New England Journal of Medicine.
- 8 – Andrews et al. (2021) Effectiveness of BNT162b2 (Comirnaty, Pfizer-BioNTech) COVID-19 booster vaccine against covid-19 related symptoms in England: test negative case-control study. medRXiv.
- 9 – Andrews et al. (2021) Effectiveness of COVID-19 vaccines against the Omicron (B.1.1.529) variant of concern. medRXiv.
- 10 – Andrews et al. (2022) Effectiveness of COVID-19 booster vaccines against COVID-19-related symptoms, hospitalization and death in England. Nature medicine.
- 11 – Kirsebom et al. (2022) COVID-19 Vaccine Effectiveness against the Omicron BA.2 variant in England. medRXiv.