Yeowool Choi scite author profile

Many studies have demonstrated that heavy metals existing as a mixture in the atmospheric environment cause adverse effects on human health and are important key factors of cytotoxicity; however, little investigation has been conducted on a toxicological study of a metal mixture from atmospheric fine particulate matter. The objective of this study was to predict the combined effects of heavy metals in aerosol by using in vitro human cells and obtain a suitable mixture toxicity model. Arsenic, nickel, and lead were selected for mixtures exposed to A549 human lung cancer cells. Cell proliferation (WST-1), glutathione (GSH), and interleukin (IL)-8 inhibition were observed and applied to the prediction models of mixture toxicity, concentration addition (CA) and independent action (IA). The total mixture concentrations were set by an IC-fixed ratio of individual toxicity to be more realistic for mortality and enzyme inhibition tests. The results showed that the IA model was statistically closer to the observed results than the CA model in mortality, indicating dissimilar modes of action. For the GSH inhibition, the results predicted by the IA and CA models were highly overestimated relative to mortality. Meanwhile, the IL-8 results were stable with no significant change in immune reaction related to inflammation. In conclusion, the IA model is a rapid prediction model in heavy metals mixtures; mortality, as a total outcome of cell response, is a good tool for demonstrating the combined toxicity rather than other biochemical responses.

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Accumulation and Distribution of Nanoplastics in Zacco Platypus: Effects on Behavior and Toxicity

Choi

Choi²,

Kim³

2022

SSRN Journal

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Body Distribution and Ecotoxicological Effect of Nano Size Plastics in Freshwater Fish, <i>Zacco Platypus</i>

Choi

Kim

2023

Preprint

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Organophosphate esters in Great Lakes fish: An improved analysis to assess concentrations and human exposure via consumption

Choi

Hao

Helm

et al. 2022

Science of The Total Environment

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Identification and Toxicity Prediction of Biotransformation Molecules of Organophosphate Flame Retardants by Microbial Reactions in a Wastewater Treatment Plant

Choi

Kim

2021

IJMS

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Organophosphate flame retardants (OPFRs) are substances added to plastics, textiles, and furniture, and are used as alternatives to brominated flame retardants. As the use of OPFRs increases in the manufacturing industry, the concentration in the aquatic environment is also increasing. In this study, OPFRs introduced into a wastewater treatment plant (WWTP) were identified, and the toxicity of biotransformation molecules generated by the biological reaction was predicted. Tris(2-butoxyethyl) phosphate, tris(2-butoxyethyl) phosphate, and triphenyl phosphate were selected as research analytes. Chemicals were analyzed using high-resolution mass spectrometry, and toxicity was predicted according to the structure. As a result, tris(1-chloro-2-propyl) phosphate showed the highest concentration, and the removal rate of OPFRs in the WWTP was 0–57%. A total of 15 biotransformation products were produced by microorganisms in the WWTP. Most of the biotransformation products were predicted to be less toxic than the parent compound, but some were highly toxic. These biotransformation products, as well as OPFRs, could flow into the water from the WWTP and affect the aquatic ecosystem.

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Yeowool Choi

Profiling the decomposition products of perfluorooctane sulfonate (PFOS) irradiated using an electron beam

Identification of biotransformation products of organophosphate ester from various aquatic species by suspect and non-target screening approach

Characterizing biotransformation products and pathways of the flame retardant triphenyl phosphate in Daphnia magna using non-target screening

Combined toxic effect of airborne heavy metals on human lung cell line A549

Accumulation and Distribution of Nanoplastics in Zacco Platypus: Effects on Behavior and Toxicity

Body Distribution and Ecotoxicological Effect of Nano Size Plastics in Freshwater Fish, <i>Zacco Platypus</i>

Organophosphate esters in Great Lakes fish: An improved analysis to assess concentrations and human exposure via consumption

Identification and Toxicity Prediction of Biotransformation Molecules of Organophosphate Flame Retardants by Microbial Reactions in a Wastewater Treatment Plant

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