Analysis of over 250 novel synthetic opioids and xylazine by LC-MS-MS in blood and urine.

IF 2.3 3区 医学 Q3 CHEMISTRY, ANALYTICAL
Katie Diekhans, Jihau Yu, Megan Farley, Luke N Rodda
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引用次数: 0

Abstract

Novel Synthetic Opioids (NSO) are frequently found in postmortem (PM) and human performance (HP) forensic toxicology casework, resulting in impairment and fatal overdoses. Developing a broad NSO method benefits public health, as it can be used to identify trends in potent opioid use to develop risk management programs. This project aimed to design a comprehensive, rapid and routine method for the selective analysis of over 250 novel synthetic opioids in blood and urine. This method rapidly extracted 150 µL of blood or urine via protein precipitation followed by size-exclusion filtration, evaporation and reconstitution. Separation and data acquisition were achieved on a 12 min LC-MS-MS method using an F5 column. Data processing was expedited with a custom built-in query created in-house that automated processing and enhanced quality assurance. Validation according to ASB/ANSI Standard 036 was performed and applicability of the method was assessed using proficiency test and authentic casework samples. Assessed in blood and urine qualitatively were 261 unique analytes including fentanyl analogs (fentalogs), nitazenes and other miscellaneous synthetic opioids. As 59 isomeric target analytes were placed into groups due to co-elution, there were 202 distinct acquired targets or target - groups. To demonstrate applicability, 27 proficiency test blood samples received over an approximate 4-year period were analyzed with 126 expected results assessed comprising 25 unique target analytes. Additionally, 617 fatal accidental overdoses within San Francisco in 2022 were retroactively analyzed by this method with almost 10% of cases containing a new NSO substance(s). Such trends and NSO substances were previously unknown in this community.

利用 LC-MS-MS 分析血液和尿液中 250 多种新型合成阿片类药物和恶嗪。
新型合成类阿片(NSO)经常出现在尸检(PM)和人体表现(HP)法医毒理学案例工作中,导致损伤和致命的过量使用。开发一种广泛的 NSO 方法有利于公共卫生,因为它可用于确定强效阿片类药物的使用趋势,从而制定风险管理计划。本项目旨在设计一种全面、快速和常规的方法,用于选择性分析血液和尿液中的 250 多种新型合成阿片类药物。该方法通过蛋白质沉淀快速提取 150 µL 血液或尿液,然后进行尺寸排阻过滤、蒸发和复溶。使用 F5 色谱柱,在 12 分钟的 LC-MS-MS 方法中完成分离和数据采集。利用内部创建的自定义内置查询加快了数据处理,实现了自动处理并提高了质量保证。根据 ASB/ANSI 标准 036 进行了验证,并使用能力测试和真实案例样本对该方法的适用性进行了评估。对血液和尿液中的 261 种独特分析物进行了定性评估,其中包括芬太尼类似物(芬太尼类)、硝氮类和其他合成类阿片。由于共洗脱作用,59 种异构目标分析物被归为一组,因此共有 202 个不同的获取目标或目标组。为了证明其适用性,对大约 4 年期间收到的 27 份能力测试血样进行了分析,评估了 126 项预期结果,其中包括 25 种独特的目标分析物。此外,该方法还对 2022 年旧金山的 617 例致命意外用药过量病例进行了追溯分析,其中近 10% 的病例含有新的 NSO 物质。这种趋势和 NSO 物质在该社区以前是未知的。
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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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