Litcius/Paper detail

Indoor air filtration could lead to increased airborne endotoxin levels

Mutong Niu, Fangxia Shen, Feng Zhou, Tianle Zhu, Yunhao Zheng, Yi Yang, Ye Sun, Xinghua Li, Yan Wu, Pingqing Fu, Shu Tao

2020Environment International26 citationsDOIOpen Access PDF

Abstract

Stand-alone portable air purifiers (APs) have become an increasingly popular method of controlling individual inhalation exposure. Exposure to bacterial endotoxins has a causative role in respiratory inhalation health. Here, we studied the changes in endotoxin levels in indoor air before and after purification by a portable AP equipped with HEPA (high-efficiency particulate air) filters. An increase in endotoxins was observed when a previously used AP was turned on to clean the air. Replacing the HEPA filters in the AP helped to mitigate the increase in endotoxins of larger sizes but not endotoxins of smaller sizes. Consequently, the use of APs could lead to increased endotoxin deposition in airways, especially in the alveolar region. The endotoxin concentrations on the HEPA filters were well correlated with the free DNA concentrations on the HEPA filters. This correlation indicates that the disrupted bacteria, which released free DNA, could also release endotoxins, thus making HEPA filters a source of indoor airborne endotoxins. Our results illustrate a potential endotoxin inhalation risk associated with HEPA-APs as an air cleaning strategy and highlight the importance of composition-specific air cleaning while reducing the particle number/mass.

Topics & Concepts

HEPAAir purifierParticulatesInhalation exposureFiltration (mathematics)Air filterInhalationEnvironmental scienceIndoor airEnvironmental chemistryChemistryEnvironmental engineeringWaste managementFilter (signal processing)BiologyEngineeringMechanical engineeringOrganic chemistryMathematicsInletElectrical engineeringStatisticsAnatomyIndoor Air Quality and Microbial ExposureAir Quality and Health ImpactsInfection Control and Ventilation