臭氧氧化生成的药物转化产物——是否会发生降解？

Pharmaceutical Transformation Products Formed by Ozonation-Does Degradation Occur?

机构信息

The Hydrochemistry Research Group, The Water Research Center, Porter School of the Environment and Earth Sciences, Faculty of Exact Sciences, Tel Aviv University, Tel Aviv 69978, Israel.

出版信息

Molecules. 2023 Jan 26;28(3):1227. doi: 10.3390/molecules28031227.

DOI:10.3390/molecules28031227

PMID:36770894

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9919501/

Abstract

The efficiency of an advanced oxidation process (AOP) using direct and indirect ozonation for the removal of pharmaceutical residues from deliberately spiked deionized water was examined. Both direct and indirect ozonation demonstrated 34% to 100% removal of the parent compounds. However, based on the products' chemical structure and toxicity, we suggest that despite using accepted and affordable ozone and radical concentrations, the six parent compounds were not fully degraded, but merely transformed into 25 new intermediate products. The transformation products (TPs) differed slightly in structure but were mostly similar to their parent compounds in their persistence, stability and toxicity; a few of the TPs were found to be even more toxic than their parent compounds. Therefore, an additional treatment is required to improve and upgrade the traditional AOP toward degradation and removal of both parent compounds and their TPs for safer release into the environment.

摘要

本研究考察了直接臭氧化和间接臭氧化两种高级氧化工艺（AOP）去除去离子水中有意添加的药物残留的效率。直接臭氧化和间接臭氧化均能去除 34%至 100%的母体化合物。然而，根据产物的化学结构和毒性，我们建议尽管使用了公认的、可负担的臭氧和自由基浓度，但六种母体化合物并未完全降解，而只是转化为 25 种新的中间产物。转化产物（TPs）在结构上略有不同，但在持久性、稳定性和毒性方面与母体化合物大多相似；一些 TPs 的毒性甚至比母体化合物更高。因此，需要进行额外的处理以改进和升级传统的 AOP，以降解和去除母体化合物及其 TPs，从而更安全地将其释放到环境中。

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臭氧氧化生成的药物转化产物——是否会发生降解？

Pharmaceutical Transformation Products Formed by Ozonation-Does Degradation Occur?

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