Issue 14, 2024

The application of a self-designed microfluidic lung chip in the assessment of different inhalable aerosols

Abstract

Microfluidic-based assessment platforms have recently attracted considerable attention and have been widely used for evaluating in vitro toxic effects. In the present study, we developed an original real-time aerosol exposure system, which focused on a self-designed microfluidic chip, in order to evaluate the toxicological effects following exposure to inhalable aerosols. The three-layer structured microfluidic chip enables real-time aerosol exposure at the gas–liquid interface. The comprehensive detection of toxic effect biomarkers based on this assessment platform encompasses transcriptomics, in situ fluorescence detection, and the identification of extracellular secretagogues. Correspondingly, the effects of selected inhalable aerosols such as cigarette smoke (CS), heated tobacco product smoke (HS), and electronic cigarette smoke (ES) on gene expression profiles, cell viability, intracellular biomarkers (reactive oxygen species and nitric oxide), apoptosis (caspase-3/7 activity), and extracellular biomarkers (IL-8, IL-1β, TNF-α, and malondialdehyde) in the BEAS-2B cells present on the chip were investigated. Following exposure to aerosols derived from CS, HS, and ES, the transcriptome analysis revealed differential expression in these cells. In addition, the overlapping DEGs from the different treatment groups were found to be primarily associated with stimuli and inflammatory responses. Correspondingly, each of the three categories of selected inhalable aerosols was confirmed to induce significant changes in biomarkers that were associated with toxic effects. These results suggest that the original real-time aerosol exposure system centered around a self-designed chip can be applied to the toxic effect evaluation of inhalable aerosol exposure.

Graphical abstract: The application of a self-designed microfluidic lung chip in the assessment of different inhalable aerosols

Supplementary files

Article information

Article type
Paper
Submitted
04 Jan 2024
Accepted
05 Mar 2024
First published
06 Mar 2024

Anal. Methods, 2024,16, 2111-2119

The application of a self-designed microfluidic lung chip in the assessment of different inhalable aerosols

Z. Li, X. Li, B. Feng, J. Zhao, K. Liu, F. Xie and J. Xie, Anal. Methods, 2024, 16, 2111 DOI: 10.1039/D4AY00017J

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