Abstract
Air purifiers have become popular among ordinary families. However, it remains controversial whether indoor air purification improves the respiratory health of healthy adults. A randomized crossover intervention study was conducted with 32 healthy individuals. The subjects were categorized into two groups. One group continuously used true air purifiers, and the other followed with sham air purifiers for 4 weeks. Following this first intervention, all the subjects underwent a 4-week washout period and continued with the second 4-week intervention with the alternate air purifiers. We collected fine particulate matter (PM) ≤ 2.5 µm in aerodynamic diameter (PM2.5), coarse particulate matter between 2.5 and 10 µm in aerodynamic diameter (PM10–2.5) and ozone (O3). The subjects’ pulmonary function and fractional exhaled nitric oxide (FeNO) were measured during the study period. The indoor PM2.5 concentrations decreased by 11% with the true air purifiers compared to those with sham air purifiers. However, this decrease was not significant (p = 0.08). The air purification did not significantly improve the pulmonary function of the study subjects. In contrast, an increase in the indoor PM10–2.5 and O3 concentration led to a significant decrease in the forced expiratory volume in one second (FEV1.0)/forced vital capacity (FVC) and maximal mid-expiratory flow (MMEF), respectively. In conclusion, air purification slightly improved the indoor PM2.5 concentrations in ordinary homes but had no demonstrable impact on improving health.
Highlights
Ambient air contains suspended particulate matter (PM) that varies in size [1,2]
The results indicated that indoor PM2.5 concentrations decreased in homes with a true air purifier as compared to those with a sham air purifier
In a study performed in Shanghai, China, air purification led to a reduction in the indoor PM2.5 concentration by as much as approximately 57% when the rooms used for the study were kept closed for 48 h [26]
Summary
Ambient air contains suspended particulate matter (PM) that varies in size [1,2]. PM ≤ 2.5 μm in aerodynamic diameter (PM2.5) is known to adversely affect the respiratory system when inhaled, inducing airway inflammation and other respiratory conditions [3,4,5,6]. Coarse PM with an aerodynamic diameter between 2.5 and 10 μm (PM10–2.5) has adverse effects on human health [2]. Ozone (O3 ) is a gaseous air pollutant that can irritate the mucosal membranes of the eyes and respiratory system. Considering the adverse effects of PM and O3 on human health, reducing the ambient concentrations of these pollutants
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