Face masks not enough to fight air pollution
Although a mask may filter tiny particles as advertised, face size and shape as well as movement can lead to leakage as high as 68 per cent, researchers report in Occupational & Environmental Medicine.
“Even if the filtration efficiency of the mask is high, and the mask fits the person initially, the mask may not continue to give a good fit as the person goes about their daily activities — walking, talking, and more,” said senior study author Miranda Loh, an environmental scientist at the Institute of Occupational Medicine in Edinburgh, Scotland.
“It is important for people to understand that not all masks are effective at reducing exposure to particles in air pollution,” Loh said. “And none of these masks reduced the concentration of pollution gases such as nitrogen dioxide.”
Although masks sold for workplace use generally must meet rigorous standards, there are few controls on masks marketed to consumers and little information on which mask will offer the best protection, the study team writes.
Their assessment of a sampling of masks in Beijing is part of a larger project funded by the Research Councils UK, examining air pollution in the Chinese capital and its health effects.
Air pollution causes an estimated 1.6 million premature deaths in China each year, the study team notes.
At consumer outlets in Beijing, Loh and colleagues purchased nine different mask types that claimed to protect against fine particle pollution known as PM2.5, which includes soot, droplets and other particles smaller than 2.5 microns in diameter. These tiny particles are components of vehicle exhaust and industrial emissions and can penetrate into the lungs, and enter the bloodstream.
Researchers first tested each mask’s filtration efficiency by drawing airborne diesel exhaust through a section of the material for 30 minutes and measuring the particulate matter and black carbon concentrations on both sides. They also tested four masks on 10 volunteers who were exposed to diesel exhaust in a lab while performing tasks such as talking, sitting, standing, and walking in place.
In the filtration tests, the average particle and carbon penetration ranged from 0.26 per cent to 29 per cent, depending on the mask material. In the volunteers, the average leakage around mask edges ranged from 3 per cent to 68 per cent during sedentary tasks and 7 per cent to 66 per cent in active tasks. Only one mask had an average leakage below 10 percent in both active and sedentary tests.