Litcius/Paper detail

Oxidative Potential Induced by Ambient Particulate Matters with Acellular Assays: A Review

Lanfang Rao, Luying Zhang, Xingzi Wang, Tingting Xie, Shumin Zhou, Senlin Lü, Xinchun Liu, Hui Lü, Kai Xiao, Weiqian Wang, Qingyue Wang

2020Processes61 citationsDOIOpen Access PDF

Abstract

Acellular assays of oxidative potential (OP) induced by ambient particulate matters (PMs) are of great significance in screening for toxicity in PMs. In this review, several typical OP measurement techniques, including the respiratory tract lining fluid assay (RTLF), ascorbate depletion assay (AA), dithiothreitol assay (DTT), chemiluminescent reductive acridinium triggering (CRAT), dichlorofluorescin assay (DCFH) and electron paramagnetic/spin resonance assay (EPR/ESR) are discussed and their sensitivity to different PMs species composition, PMs size distribution and seasonality is compared. By comparison, the DTT assay tends to be the preferred method providing a more comprehensive measurement with transition metals and quinones accumulated in the fine PMs fraction. Specific transition metals (i.e., Mn, Cu, Fe) and quinones are found to contribute OPDTT directly whereas the redox properties of PMs species may be changed by the interactions between themselves. The selection of the appropriate OP measurement methods and the accurate analysis of the relationship between the methods and PM components is conducive to epidemiological researches which are related with oxidative stress induced by PMs exposure.

Topics & Concepts

DithiothreitolChemistryOxidative stressElectron paramagnetic resonanceParticulatesChemiluminescenceOxidative phosphorylationRedoxBiophysicsEnvironmental chemistryBiochemistryChromatographyInorganic chemistryOrganic chemistryEnzymeBiologyNuclear magnetic resonancePhysicsAir Quality and Health ImpactsAir Quality Monitoring and ForecastingCOVID-19 impact on air quality
Oxidative Potential Induced by Ambient Particulate Matters with Acellular Assays: A Review | Litcius