Diesel fumes 'increase the risk of heart attacks'
Last updated at 8:06 AM on 15th July 2011
Scientists in Scotland have found that tiny particles produced when diesel burns are harmful to blood vessels and can increase the chances of blood clots forming in arteries, leading to a heart attack or stroke.
The research by the University of Edinburgh measured the impact of diesel exhaust fumes on healthy volunteers at levels that would be found in heavily polluted cities.
Scientists compared how people reacted to the gases found in diesel fumes - such as carbon monoxide and nitrogen dioxide - with those caused by the ultrafine chemical particles from exhausts.
The research, funded by the British Heart Foundation, showed that the tiny particles, and not the gases, impaired the function of blood vessels that control how blood is channelled to the body's organs.
The 'invisible' particles - less than a millionth of a metre wide - can be filtered out of exhaust emissions by fitting special particle traps to vehicles.
Particle traps are already being fitted retrospectively to public transport vehicles in the US to minimise the potential effects of pollution.
Dr Mark Miller, of the university's Centre for Cardiovascular Science, said: 'While many people tend to think of the effects of air pollution in terms of damage to the lungs, there is strong evidence that it has an impact on the heart and blood vessels as well.
Researchers want environmental health measures that are designed to reduce emissions to be tested to determine whether they reduce the incidence of heart attacks.
Professor Jeremy Pearson, associate medical director at the British Heart Foundation, said: 'We've known for a long time that air pollution is a major heart health issue and that's why we're funding this team in Edinburgh to continue their vital research.
'Their findings suggest that lives could be saved by cutting these harmful nanoparticles out of exhaust - perhaps by taking them out of the fuel, or making manufacturers add gadgets to their vehicles that can trap particles before they escape. The best approach isn't clear yet.
The results are published in the European Heart Journal.