Dutch National Police, Unit Amsterdam, Forensic Laboratory, Kabelweg 25, Amsterdam 1014 BA, Netherlands; Van 't Hoff Institute for Molecular Sciences, University of Amsterdam, Postbus 94157, Amsterdam 1090 GD, Netherlands.
Van 't Hoff Institute for Molecular Sciences, University of Amsterdam, Postbus 94157, Amsterdam 1090 GD, Netherlands.
Forensic Sci Int. 2019 Sep;302:109900. doi: 10.1016/j.forsciint.2019.109900. Epub 2019 Jul 26.
Currently, forensic drug experts are facing chemical identification challenges with the increasing number of new isomeric forms of psychoactive substances occurring in case samples. Very similar mass spectra for these substances could easily result in misidentification using the regular GC-MS screening methods in combination with colorimetric testing in forensic laboratories. Building on recent work from other groups, this study demonstrates that GC-VUV is a powerful technique for drug isomer differentiation, showing reproducible and discriminating spectra for aromatic ring-isomers. MS and VUV show complementary selectivity as VUV spectra are ring-position specific whereas MS spectra are characteristic for the amine moieties of the molecule. VUV spectra are very reproducible showing less than 0.1‰ deviation in library match scores and therefore small spectral differences suffice to confidently distinguish isomers. In comparison, MS match scores gave over 10‰ deviation and showed significant overlap in match score ranges for several isomers. This poses a risk for false positive identifications when assigning compounds based on retention time and GC-MS mass spectrum. A strategy was developed, based on Kernel Density Estimations of match scores, to construct Receiver Operating Characteristic (ROC) curves and estimate likelihood ratios (LR values) with respect to the chemical differentiation of drug related isomers. This approach, and the added value of GC-VUV is demonstrated with the chemical analysis of several samples from drug case work from the Amsterdam area involving both compounds listed in Dutch drug legislation (3,4-MDMA; 3,4-MDA; 4-MMC; 4-MEC and 4-FA) as well as their unlisted and thus uncontrolled isomers (2,3-MDMA; 2,3-MDA; 2- and 3-MMC; 2- and 3-MEC and 2- and 3-FA).
目前,随着案件样本中出现的新的拟交感胺类物质同系物的数量不断增加,法医毒理学家在化学鉴别方面面临着挑战。使用常规 GC-MS 筛选方法结合法医实验室中的比色试验,这些物质非常相似的质谱很容易导致误识别。基于其他小组的最新研究,本研究表明 GC-VUV 是一种强大的药物异构体区分技术,可针对芳香环异构体提供可重复且具有区分度的光谱。MS 和 VUV 具有互补的选择性,因为 VUV 光谱是针对环位置的,而 MS 光谱则是针对分子的胺部分的特征。VUV 光谱非常稳定,库匹配分数的偏差小于 0.1‰,因此只需很小的光谱差异就足以自信地区分异构体。相比之下,MS 匹配分数的偏差超过 10‰,并且对于几种异构体的匹配分数范围存在明显的重叠。这在根据保留时间和 GC-MS 质谱分配化合物时会导致假阳性鉴定的风险。本研究提出了一种基于匹配分数核密度估计的策略,构建了接收器操作特性(ROC)曲线,并估计了与药物相关异构体的化学区分有关的似然比(LR 值)。该方法以及 GC-VUV 的附加值,通过对来自阿姆斯特丹地区毒品案件的几个样本的化学分析得到了验证,这些样本涉及荷兰毒品法规中列出的两种化合物(3,4-MDMA;3,4-MDA;4-MMC;4-MEC 和 4-FA)及其未列出的、因此不受控制的异构体(2,3-MDMA;2,3-MDA;2-和 3-MMC;2-和 3-MEC 和 2-和 3-FA)。
