A Unified Cellular Toxic Potency Dataset of PM(2 5) across Chemicals, Emission Sources, and Regions in China #MMPMID41339632
Chen X; Wu D; Li Q
Sci Data 2025[Dec]; 12 (1): 1901 PMID41339632show ga
Exposure to fine particulate matter (PM(2.5)) is a leading global health risk factor. Effective mitigation demands a multidimensional understanding that integrates chemical, source and region-level differences in PM(2.5) toxicities relevant to human health. We present a standardized in vitro cellular assay dataset characterizing PM(2.5) toxic potencies across emission sources, chemical constituents and atmospheric environments. Real-world PM(2.5) samples from 23 major anthropogenic sources, covering industrial, transportation and residential sectors, were evaluated for cytotoxicity and oxidative stress potency, identifying key sources driving PM(2.5)-induced health risks. Toxic potency-adjusted concentrations of bioactive PM(2.5) components, including polycyclic aromatic hydrocarbons, elemental carbon, metals, and non-metal species, were quantified to attribute overall PM(2.5) toxicity to specific chemicals. Furthermore, the toxic potencies of ambient PM(2.5) collected from selected urban and rural areas in China were identified, enabling the development of evaluation metrics for quantifying regional inequalities in PM(2.5) health risks. This dataset establishes a universal toxicity benchmark for standardized comparisons of PM(2.5) health impacts, providing a valuable resource for exposure assessment, source prioritization, and air quality risk evaluation.
Sci+Data 2025 ; 12 (1): 1901
