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    Study finds new way of predicting COVID-19 vaccine efficacy

    A study has identified the immune response associated with protection from COVID-19. The discovery is likely to help reduce the time it takes to develop new vaccines.

    Study finds new way of predicting COVID-19 vaccine efficacy
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    The early immune response in a person who has been vaccinated for coronavirus can predict the level of protection they will have to the virus over time, according to analysis from Australian mathematicians, clinicians and scientists published in Nature Medicine, reported UNSW Sydney Newsroom.

    The researchers from UNSW's Kirby Institute, the Peter Doherty Institute for Infection and Immunity, and the University of Sydney have identified an 'immune correlate' of vaccine protection. This has the potential to dramatically cut development times for new vaccines, by measuring neutralising antibody levels as a 'proxy' for immune protection from COVID-19.

    "Neutralising antibodies are tiny Y-shaped proteins produced by our body in response to infection or vaccination. They bind to the virus, reducing its ability to infect," said Dr Deborah Cromer from the Kirby Institute. "While we have known for some time that neutralising antibodies are likely to be a critical part of our immune response to COVID-19, we haven't known how much antibody you need for immunity. Our work is the strongest evidence to date to show that specific antibody levels translate to high levels of protection from disease."

    The researchers analysed data from seven COVID-19 vaccines to examine how the response measured soon after vaccination correlated with protection. They then used statistical analysis to define the specific relationship between immune response and protection. Their analysis was remarkably accurate and was able to predict the efficacy of a new vaccine. According to Dr Cromer this finding has the potential to change the way we conduct COVID-19 vaccine trials.

    "Antibody immune levels are much easier to measure than directly measuring vaccine efficacy over time. So, by measuring antibody levels across the range of new vaccine candidates during early phases of clinical trials, we can better determine whether a vaccine should be used to prevent COVID-19," he said. While on the other hand, another crucial application of this analysis is its ability to predict immunity over time. The researchers predict that immunity to COVID-19 from vaccination will wane significantly within a year, with the level of neutralising antibodies in the blood dropping over the first few months following infection or vaccination.

    "Vaccination works very well to prevent both symptoms and severe disease in the short to medium term, but efficacy is predicted to decline over the first few months for most of these vaccines," says Dr David Khoury, also from the Kirby Institute. "However, it is very important to understand the difference between immunity against infection and protection from developing severe disease. Our study found that a six-fold lower level of antibodies is required to protect against severe disease. So even though our analysis predicts that we will start losing immunity to mild infection in the first year after vaccination, protection from severe infection should be longer lived," says Dr Khoury.

    "But ultimately, for optimal protection against moderate disease and transmission of COVID-19, these findings suggest we may be looking at annual vaccine boosters, just like what we have with the flu vaccine." A major global challenge is the evolution of the virus and the emergence of new variants. There is a growing concern, based on laboratory studies, that antibodies developed against the dominant strains are less effective at neutralising these new variants.

    "An added advantage of our work is that allows us to predict how protective an immune response will be against different variants," says Professor Jamie Triccas from the University of Sydney's Charles Perkins Centre and Faculty of Medicine and Health. "This analysis shows a very good correlation between the immune response - which is very easy to test for - and the efficacy of a vaccine in preventing infection, which is incredibly hard to test for. This means we can predict how protective an immune response will be against different variants, without having to determine efficacy against each variant in large and costly clinical trials.

    "This work can facilitate decision making by providing the necessary data much earlier on in the vaccine development pipeline and in a far more efficient way." A limitation of this study is that it analyses the relationship between early immune responses to infection and vaccination and protection from infection (the data that is currently available), and uses this relationship to project how immunity will change in the future and in the response to different viral variants. Future studies should aim to confirm these predictions as data becomes available.

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