电化学与微流控技术在药物代谢研究中的结合。

The Combination of Electrochemistry and Microfluidic Technology in Drug Metabolism Studies.

机构信息

School of Life, Health and Chemical Sciences, The Open University, Walton Hall, Karen Hills, Milton Keynes, MK7 6AA, UK.

出版信息

ChemistryOpen. 2022 Dec;11(12):e202200100. doi: 10.1002/open.202200100. Epub 2022 Sep 27.

DOI:10.1002/open.202200100

PMID:36166688

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9716038/

Abstract

Drugs are metabolized within the liver (pH 7.4) by phase I and phase II metabolism. During the process, reactive metabolites can be formed that react covalently with biomolecules and induce toxicity. Identifying and detecting reactive metabolites is an important part of drug development. Preclinical and clinical investigations are conducted to assess the toxicity and safety of a new drug candidate. Electrochemistry coupled to mass spectrometry is an ideal complementary technique to the current preclinical studies, a pure instrumental approach without any purification steps and tedious protocols. The combination of microfluidics with electrochemistry towards the mimicry of drug metabolism offers portability, low volume of reagents and faster reaction times. This review explores the development of microfluidic electrochemical cells for mimicking drug metabolism.

摘要

药物在肝脏（pH 值 7.4）中通过 I 相和 II 相代谢进行代谢。在此过程中，可能会形成反应性代谢物，与生物分子发生共价反应并诱导毒性。鉴定和检测反应性代谢物是药物开发的重要组成部分。进行临床前和临床研究以评估新候选药物的毒性和安全性。电化学与质谱联用是当前临床前研究的理想补充技术，这是一种无需任何纯化步骤和繁琐方案的纯仪器方法。将微流控技术与电化学相结合，以模拟药物代谢，具有便携性、试剂用量少和反应时间快的特点。本文综述了用于模拟药物代谢的微流控电化学池的开发。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/15d4/9716038/702f27753785/OPEN-11-e202200100-g005.jpg

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电化学与微流控技术在药物代谢研究中的结合。

The Combination of Electrochemistry and Microfluidic Technology in Drug Metabolism Studies.

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