Study finds air pollution linked to risk of premature death
- A new international study by researchers from Monash University and abroad have found that air pollution is linked to increased cardiovascular and respiratory death rates.
- The study is the largest of its kind to investigate the short-term impacts of air pollution on death, conducted over a 30-year period.
- The study analysed data on air pollution and mortality in 24 countries and regions, with concentrations of air pollution in Australia lower than in other countries due to lower population density and less emissions from industry and traffic sources.
Exposure to toxic air pollutants is linked to increased cardiovascular and respiratory death rates, according to a new, international study by researchers from Monash University and abroad.
The study analysed data on air pollution and mortality in 652 cities across 24 countries and regions, and found increases in total deaths are linked to exposure to inhalable particles (PM10) and fine particles (PM2.5) emitted from fires or formed through atmospheric chemical transformation.
Published today in the New England Journal of Medicine, it’s the largest international study to investigate the short-term impacts of air pollution on death, conducted over a 30-year period.
Associate Professor Yuming Guo from Monash University’s School of Public Health and Preventive Medicine, said as there’s no threshold for the association between particulate matter (PM) and mortality, even low levels of air pollution can increase the risk of death.
“The adverse health effects of short-term exposure to air pollution have been well documented, and known to raise public health concerns of its toxicity and widespread exposure,” Professor Guo said.
“The smaller the airborne particles, the more easily they can penetrate deep into the lungs and absorb more toxic components causing death.
“Though concentrations of air pollution in Australia are lower than in other countries, the study found that Australians are more sensitive to particulate matter air pollution and cannot effectively resist its adverse impacts. This may be attributed to Australians’ physiological functions having adapted to living in areas with low levels of particulate matter air pollution.
“Given the extensive evidence on their health impacts, PM10 and PM2.5 are regulated through the World Health Organisation (WHO) Air Quality Guidelines and standards in major countries, however Australians should pay more attention to the sudden increase in air pollution,” Professor Guo said.
The results are comparable to previous findings in other multi-city and multi-country studies, and suggest that the levels of particulate matter below the current air quality guidelines and standards are still hazardous to public health.
For more information about the School of Public Health and Preventive Medicine, please visit monash.edu/medicine/sphpm.