Analysis on dynamic changes of etizolam and its metabolites and exploration of its development prospect using UPLC-Q-exactive-MS.

J Pharm Biomed Anal

Drug and Food Anti-doping Laboratory, China Anti-Doping Agency, 1st Anding Road, Chaoyang, Beijing 100029, China. Electronic address:

Published: March 2024

AI Article Synopsis

  • The study analyzed etizolam, a commonly abused designer benzodiazepine, using UPLC-Q-Exactive-MS for a detailed look at its metabolism and pharmacokinetics in rats.
  • A new pharmacokinetic model based on Lorentz function was developed, improving the accuracy of drug detection and providing insights into etizolam's popularity in the new psychoactive substances market.
  • The research identified 21 metabolites, four of which are long-acting, enhancing detection capabilities and offering valuable information for forensic experts and drug policy development.

Article Abstract

As one of the most widely abused designer benzodiazepines in the world, etizolam has been found in many cases in many countries. In this study, UPLC-Q-Exactive-MS was used for the first time to establish a dynamic change model of etizolam and its metabolites in rats. Compared with previous studies, the detection sensitivity and reproducibility of the instrument were higher. In the experiment, we optimized the traditional pharmacokinetic model based on Gauss function. According to the significant difference of etizolam in the plasma elimination phase of rats, a new pharmacokinetic model based on Lorentz function was established to describe the dynamic changes of etizolam more rigorously, which made the error effects lower and the accuracy of the pharmacokinetic parameters was improved. At the same time, the pharmacokinetic parameters of etizolam were compared with four other designer benzodiazepines reported in previous studies in rats, and we found the direct reason for the popularity of etizolam in the NPS market and explored the future development of etizolam for the first time. In addition, 21 metabolites were found through rat experiments to effectively detect etizolam abuse for a long time, of which 4 metabolites had the longest detection window and could be used as long-acting metabolites for experiments, which greatly prolongs the detection window and extends the time range in which etizolam was detected in real cases. This study is the first to conduct a systematic and comprehensive study on the metabolism and pharmacokinetics of etizolam and find out the direct reason for the prevalence of etizolam abuse, and we also discuss the development trend of etizolam in the future market of new psychoactive substances, which is beneficial for forensic experts to assess the trend of drug abuse and can provide reference for relevant drug control and drug treatment.

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Source
http://dx.doi.org/10.1016/j.jpba.2023.115936DOI Listing

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