Autor: |
Verstraelen S; VITO NV (Flemish Institute for Technological Research), Unit HEALTH, Mol, Belgium., Jacobs A; VITO NV (Flemish Institute for Technological Research), Unit HEALTH, Mol, Belgium., Van Laer J; VITO NV (Flemish Institute for Technological Research), Unit HEALTH, Mol, Belgium., Hollanders K; VITO NV (Flemish Institute for Technological Research), Unit HEALTH, Mol, Belgium., Van Deun M; VITO NV, Unit Separation and Conversion Technology (SCT), Mol, Belgium., Bertels D; VITO NV, Unit Separation and Conversion Technology (SCT), Mol, Belgium., Brabers R; VITO NV (Flemish Institute for Technological Research), Unit HEALTH, Mol, Belgium., Witters H; VITO NV (Flemish Institute for Technological Research), Unit HEALTH, Mol, Belgium., Remy S; VITO NV (Flemish Institute for Technological Research), Unit HEALTH, Mol, Belgium.; University of Antwerp, Department of Biomedical Sciences, Antwerp, Belgium., Geerts L; VITO NV (Flemish Institute for Technological Research), Unit HEALTH, Mol, Belgium., Deferme L; ExxonMobil Petroleum and Chemical BV, Machelen, Belgium., Frijns E; VITO NV (Flemish Institute for Technological Research), Unit HEALTH, Mol, Belgium. |
Abstrakt: |
The goal is to optimize and show the validity of an in vitro method for inhalation testing of petroleum substances and their constituents at the air-liquid interface (ALI). The approach is demonstrated in a pilot study with ethylbenzene (EB), a mono-constituent petroleum substance, using a human alveolar epithelial cell line model. This included the development and validation of a generation facility to obtain EB vapors and the optimization of an exposure system for a negative control (clean air, CA), positive control (nitrogen dioxide), and EB vapors. The optimal settings for the VITROCELL® 24/48 system were defined. Cytotoxicity, cell viability, inflammation, and oxidative stress were assessed in A549 after exposure to EB vapors. A concentration-dependent significant decrease in mean cell viability was observed after exposure, which was confirmed by a cytotoxicity test. The oxidative stress marker superoxide dismutase 2 was significantly increased, but no concentration-response was observed. A concentration-dependent significant increase in pro-inflammatory markers C-C motif chemokine ligand 2, interleukin (IL)6, and IL8 was observed for EB-exposed A549 cells compared to CA. The data demonstrated consistency between in vivo air concentrations at which adverse respiratory effects were observed and ALI-concentrations affecting cell viability, provided that the actual measured in vitro delivery efficiency of the compound was considered. It can be concluded that extrapolating in vitro air concentrations (adjusted for delivery efficiency and absorption characteristics and applied for testing cell viability) to simulate in vivo air concentrations may be a promising method to screen for acute inhalation toxicity. |