Comprehensive evaluation of cocaine and its hydroxy metabolites in seized cocaine and a large cohort of hair samples.

IF 2.3 3区 医学 Q3 CHEMISTRY, ANALYTICAL Journal of analytical toxicology Pub Date : 2024-11-15 DOI:10.1093/jat/bkae064
Milena M Madry, Teresa Denifle, Tina M Binz, Christian Bogdal, Thomas Kraemer, Markus R Baumgartner
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Abstract

As cocaine (COC) is not only incorporated into hair via blood following ingestion but also by external contamination, hair samples are commonly tested for COC metabolites to prove ingestion. However, COC metabolites can also be present as degradation products in typical street COC samples. The present study investigates minor hydroxycocaine (OH-COC) metabolites p- and m-OH-COC together with p- and m-hydroxybenzoylecgonine (OH-BE) in seized COC (n = 200) and hair samples from routine case work (n = 2389). Analytical results of hair samples were interpreted using an established decision model for the differentiation between actual use and external contamination using metabolic ratios (metabolite to COC). They were further examined concerning background of request, hair color, body site of sample collection, sex, and metabolic ratios of the main metabolites [benzoylecgonine (BE), norcocaine (NC), and cocaethylene (CE)]. All seized COC samples were positive for p- and m-OH-COC with a maximum percentage of 0.025% and 0.052%, respectively; p- and m-OH-BE were detected in 55% and 56% of samples with a maximum percentage of 0.044% and 0.024%, respectively. Analytical results of 424 hair samples (17.7%) were interpreted as being predominantly from contamination; the majority of these samples were from traffic medicine cases (83.7%). Metabolic ratios of minor OH-COC metabolites were significantly higher in hair samples interpreted as originating from use than in samples interpreted as caused by contamination. Metabolic ratios for OH-COCs were significantly higher in forensic cases compared to abstinence controls and also in black hair compared to blond/gray hair. However, this was not the case for OH-BE metabolic ratios. No statistical difference was observed with regard to the donor's sex. OH-COC metabolic ratios increased significantly with increasing ratios of NC and CE to COC, respectively. The study demonstrates that OH-COC metabolites (including thresholds for their metabolic ratios) must be used for a reliable interpretation of positive COC results in hair samples.

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全面评估缉获的可卡因和大量毛发样本中的可卡因及其羟基代谢物。
由于可卡因不仅会在摄入后通过血液进入毛发,而且还会通过外部污染进入毛发,因此通常会对毛发样本进行可卡因代谢物检测,以证明摄入情况。不过,可卡因代谢物也可能作为降解产物出现在典型的街头可卡因样本中。本研究调查了缉获的可卡因(样本数=200)和日常案件工作中的头发样本(样本数=2,389)中的次要羟基可卡因代谢物对羟基和间羟基可卡因以及对羟基和间羟基苯甲酰可待因。毛发样本的分析结果使用一个既定的决策模型进行解释,该模型利用代谢比率(代谢物与可卡因之比)来区分实际使用和外部污染。还对请求背景、毛发颜色、样本采集部位、性别和主要代谢物(苯甲酰基可卡因、去甲可卡因和古柯碱)的代谢比率进行了进一步检查。所有缉获的可卡因样本中对羟基和间羟基可卡因的检测结果均呈阳性,最高比例分别为 0.025%和 0.052%;55%和 56%的样本中检测出对羟基和间羟基苯甲酰可待因,最高比例分别为 0.044%和 0.024%。424 个毛发样本(17.7%)的分析结果被解释为主要来自污染;这些样本中的大多数来自交通医药案件(83.7%)。在被解释为源自使用的毛发样本中,羟基卡因次要代谢物的代谢比率明显高于被解释为污染造成的样本。法医案件中的羟基可卡因代谢比率明显高于禁欲对照组,黑色头发中的羟基可卡因代谢比率也明显高于金色/灰色头发中的羟基可卡因代谢比率。然而,羟基苯甲酰可待因的代谢比率却并非如此。在捐献者性别方面没有观察到统计差异。羟基可卡因代谢比率分别随着去甲可卡因和古柯碱与可卡因比率的增加而显著增加。这项研究表明,必须使用羟基可卡因代谢物(包括其代谢比率的阈值)才能可靠地解释毛发样本中可卡因阳性结果。
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来源期刊
CiteScore
5.10
自引率
20.00%
发文量
92
审稿时长
6-12 weeks
期刊介绍: The Journal of Analytical Toxicology (JAT) is an international toxicology journal devoted to the timely dissemination of scientific communications concerning potentially toxic substances and drug identification, isolation, and quantitation. Since its inception in 1977, the Journal of Analytical Toxicology has striven to present state-of-the-art techniques used in toxicology labs. The peer-review process provided by the distinguished members of the Editorial Advisory Board ensures the high-quality and integrity of articles published in the Journal of Analytical Toxicology. Timely presentation of the latest toxicology developments is ensured through Technical Notes, Case Reports, and Letters to the Editor.
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