芬太尼及其类似物的电化学表面增强拉曼光谱法鉴定及其滥用药物

C. Ott, M. Perez-Estebañez, Sheila Hernandez, Kendra Kelly, Kourtney A. Dalzell, M. J. Arcos-Martínez, A. Heras, Á. Colina, Luis E. Arroyo
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引用次数: 6

摘要

可靠识别缉获的药物样本中存在的芬太尼和芬太尼类似物对急救人员和实验室人员的安全至关重要,并为未来的分析过程和处理程序提供信息。这项工作中开发的电化学表面增强拉曼光谱(EC-SERS)方法允许原位制备SERS底物,提供了一种快速、高效和准确的方法来检测芬太尼,即使在缉获的药物中常见的低重量百分比浓度下也是如此。使用多脉冲安培检测实现了适用于SERS基底制备和分析物吸附的电化学电势的优化。该方法证明了SERS响应的大幅增强。该方法应用于六种酰胺基取代的芬太尼类似物,这代表了芬太尼核心结构的微小变化。通过EC-SERS光谱的差异对这些类似物的鉴定是明显的。对包括海洛因、可卡因、甲基苯丙胺、纳曲酮和纳洛酮在内的芬太尼经常遇到的分析物的干扰研究进行了评估,发现其提供的干扰有限,甚至没有干扰。芬太尼化合物的检测极限在每毫升中低纳克的范围内,最敏感的化合物检测浓度为10纳克/毫升。将该方法应用于模拟药物混合物,以确定其适用性。在所有以芬太尼为次要成分的混合物中,芬太尼被正确识别,包括由5%和1%芬太尼组成的混合物样品。该方法代表了芬太尼及其类似物的首次原位EC-SERS分析,并为缉获的药物样本中的芬太尼提供了准确有效的筛选。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Forensic Identification of Fentanyl and its Analogs by Electrochemical-Surface Enhanced Raman Spectroscopy (EC-SERS) for the Screening of Seized Drugs of Abuse
Reliable identification of fentanyl and fentanyl analogs present in seized drug samples is imperative to the safety of first responders and laboratory personnel and informs the future analysis process and handling procedures. The electrochemical-surface enhanced Raman spectroscopy (EC-SERS) method developed in this work allows the in-situ preparation of the SERS substrate providing a rapid, efficient, and accurate approach to detect fentanyl, even at low percent by weight concentrations common in seized drugs. Optimization of the electrochemical potentials suitable for the SERS substrate preparation and adsorption of the analyte was achieved using multi-pulse amperometric detection. This method demonstrated large enhancement of the SERS response. This method was applied to six fentanyl analogs with substitutions to the amide group, representing small changes in the fentanyl core structure. Identification of these analogs through differences in the EC-SERS spectra was evident. Interference studies incorporating analytes frequently encountered with fentanyl including heroin, cocaine, methamphetamine, naltrexone, and naloxone were assessed and found to offer limited to no interference. The limits of detection of the fentanyl compounds were in the low to mid nanograms per milliliter range, with the most sensitive compound detected at 10 ng/ml. Application of the method to simulated drug mixtures was performed to determine fit-for-purpose. In all mixtures with fentanyl as the minor contributor, fentanyl was correctly identified, including mixture samples comprised of 5 and 1% fentanyl. This approach represents the first in-situ EC-SERS analysis of fentanyl and its analogs and provides accurate and efficient screening for fentanyl in seized drug samples.
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