Metabolism study of 3-chloromethcathinone (3-CMC) by dried blood spot (DBS) sampling after controlled administration using a murine model.

IF 2.6 3区 医学 Q2 BIOCHEMICAL RESEARCH METHODS
Serena Mestria, Sara Odoardi, Valeria Valentini, Giorgia Corli, Marta Bassi, Matteo Marti, Sabina Strano-Rossi
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Abstract

The metabolism of 3-chloromethcathinone (3-CMC) was studied after controlled administration in a murine model using the dried blood spot (DBS) technique for the sampling, storage and purification of blood samples. Liquid chromatography-high-resolution mass spectrometry (LC-HRMS) was used for the identification of metabolites and investigation of their fragmentation pattern. Subsequently, a liquid chromatography-tandem mass spectrometry (LC-MS/MS) method was developed for their identification and 3-CMC quantification in routine workload. The main metabolites identified were two stereoisomers of dihydro-CMC, N-demethyl-CMC, and dihydro-N-demethyl-CMC. The stability of 3-CMC and of its metabolites deposited on DBS was evaluated by replicate analyses after 30, 50, and 90 days, demonstrating a decrease in concentration. It was more pronounced for 3-CMC, with -67% and -82% percentage deviation from the initial concentrations, and for N-demethyl 3-CMC (decrease comprised between -48% and -88%) than for the di-hydro metabolites, ranging from -5% to -37%. Regardless, all of them were detectable till 90 days after deposition as DBS. The possibility of identifying 3-CMC and its metabolites with high sensitivity is an invaluable tool for the diagnosis of exposure to the substance, also in low doses or after some hours, and for various applications in clinical and forensic toxicology, such as driving under the influence, drug-facilitated crimes, and addiction to intoxications. DBS demonstrated to be a reliable technique for the sampling, storage, and purification of the blood specimen for 3-CMC and metabolite detection.

以小鼠为模型,通过干血斑(DBS)取样,研究 3-氯甲卡西酮(3-CMC)在控制给药后的代谢情况。
利用干血斑(DBS)技术对血液样本进行采样、储存和纯化,在小鼠模型中研究了受控给药后 3-氯甲卡西酮(3-CMC)的代谢情况。采用液相色谱-高分辨质谱法(LC-HRMS)鉴定代谢物并研究其碎片模式。随后,开发了一种液相色谱-串联质谱(LC-MS/MS)方法,用于在日常工作中鉴定和定量 3-CMC。鉴定出的主要代谢物是二氢-CMC、N-去甲基-CMC 和二氢-N-去甲基-CMC 的两种立体异构体。通过 30 天、50 天和 90 天后的重复分析,对沉积在 DBS 上的 3-CMC 及其代谢物的稳定性进行了评估,结果显示浓度有所下降。与二氢代谢物相比,3-CMC 和 N-去甲基 3-CMC(降幅介于-48%和-88%之间)的降幅更为明显,分别为-67%和-82%,二氢代谢物的降幅介于-5%和-37%之间。尽管如此,所有这些代谢物在作为 DBS 沉积 90 天后仍可检测到。高灵敏度鉴定 3-CMC 及其代谢物的可能性是诊断接触该物质(低剂量或数小时后)以及临床和法医毒理学中各种应用(如酒后驾驶、毒品犯罪和毒瘾)的宝贵工具。事实证明,DBS 是一种可靠的血液标本采样、储存和纯化技术,可用于 3-CMC 和代谢物的检测。
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来源期刊
Drug Testing and Analysis
Drug Testing and Analysis BIOCHEMICAL RESEARCH METHODS-CHEMISTRY, ANALYTICAL
CiteScore
5.90
自引率
24.10%
发文量
191
审稿时长
2.3 months
期刊介绍: As the incidence of drugs escalates in 21st century living, their detection and analysis have become increasingly important. Sport, the workplace, crime investigation, homeland security, the pharmaceutical industry and the environment are just some of the high profile arenas in which analytical testing has provided an important investigative tool for uncovering the presence of extraneous substances. In addition to the usual publishing fare of primary research articles, case reports and letters, Drug Testing and Analysis offers a unique combination of; ‘How to’ material such as ‘Tutorials’ and ‘Reviews’, Speculative pieces (‘Commentaries’ and ‘Perspectives'', providing a broader scientific and social context to the aspects of analytical testing), ‘Annual banned substance reviews’ (delivering a critical evaluation of the methods used in the characterization of established and newly outlawed compounds). Rather than focus on the application of a single technique, Drug Testing and Analysis employs a unique multidisciplinary approach to the field of controversial compound determination. Papers discussing chromatography, mass spectrometry, immunological approaches, 1D/2D gel electrophoresis, to name just a few select methods, are welcomed where their application is related to any of the six key topics listed below.
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