Coronary heart disease is the UK's single biggest killer and the leading cause of death worldwide. The disease is responsible for nearly 70,000 deaths in the UK each year and most deaths from coronary heart disease are caused by a heart attack.
Measuring antibody levels in the blood could be used to detect a person's heart attack risk after researchers, part-funded by the British Heart Foundation (BHF), discovered that higher levels of these antibodies are linked to a lower heart attack risk.
‘Measuring antibody levels in the blood could be used to detect a person's heart attack risk. Higher levels of these antibodies are linked to a lower heart attack risk.’
The research, published today in the scientific journal EbioMedicine
, shows a link between the amount of IgG antibodies in a person's blood and their likelihood of being protected against an adverse cardiac event, such as a heart attack. IgG is the most abundant form of antibody and is found within all bodily fluids. It is responsible for protecting the body against bacterial and viral infections.
Measuring IgG - a component of the immune system - is simple and cheap, so the scientists suggest that this finding may in the future make it easier for clinicians to more accurately determine a person's risk of having a heart attack.
Lead researcher Dr Ramzi Khamis, consultant cardiologist and Independent Clinical Research Fellow at the National Heart and Lung Institute, Imperial College London, said, "Linking a stronger, more robust immune system to protection from heart attacks is a really exciting finding. As well as improving the way we tell who is at the highest risk of a heart attack so that we can give them appropriate treatments, we now have a new avenue to follow in future work. We hope that we can use this new finding to study the factors that lead some people to have an immune system that helps protect from heart attacks, while others don't. We also hope to explore ways of strengthening the immune system to aid in protecting from heart disease."
The team at Imperial College London and University College London (UCL) studied patients who suffered a heart attack or stroke from the Anglo Scandinavian Cardiac Outcomes Trial (ASCOT) with their matched controls. People enrolled on the ASCOT trial had high blood pressure and were at high risk of a cardiovascular event.
The researchers measured levels of total IgG and IgM antibodies, as well as levels of antibodies that are particular to an oxidized form of 'bad' cholesterol (oxLDL), which is known to promote atherosclerosis - the build-up of fatty material in the artery walls that can lead to heart attacks.
The researchers found that the people who had higher levels of general antibodies (IgG/IgM) as well as antibodies against oxLDL were less likely to have a heart attack. Surprisingly, total IgG levels showed the strongest association with reduced heart attack risk, independent of other risk factors such as cholesterol levels or blood pressure.
Professor Dorian Haskard, co-senior author and BHF Professor at Imperial College London, said, "These very interesting findings linking the immune system to protection from heart disease have grown out of years of previous research funded by the British Heart Foundation. The study focused on patients under treatment for high blood pressure, and we now need to know if the link also applies to other groups at risk."
Alongside the BHF's support, this work was also funded by the Wellcome Trust and a grant from the National Institute for Health Research (NIHR) Imperial Biomedical Research Center.
Professor Jeremy Pearson, Associate Medical Director at the British Heart Foundation, which helped fund the research, said, "Whether measurement of IgG will become a valuable tool for improving prediction of heart attack needs more investigation, but this well-designed study does provide further evidence for the role of the immune system in heart disease and the protective effects of IgG. Heart attacks devastate thousands of families across the UK each year and research like this is vital to improving diagnosis so doctors are able to act fast and try to prevent a potentially deadly incident."