Optimization and validation of the fast blue BB (FBBB) screening test for the detection of delta-9-tetrahydrocannabinol (Δ9-THC) in oral fluid

IF 2.6 3区医学 Q2 CHEMISTRY, ANALYTICAL

Forensic Chemistry Pub Date : 2023-09-01 DOI:10.1016/j.forc.2023.100514

Roberta Gorziza, Nicole Valdes, Marilyn Tinoco, Jose Almirall

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引用次数: 0

Abstract

The fast blue BB test (FBBB) colorimetric test has been previously validated for the differentiation between marijuana-type and hemp-type cannabis plants. Individuals under the influence of delta-9-tetrahydrocannabinol (Δ9-THC) may be impaired to perform activities such as driving and the rapid, on-site detection of recent use of Δ9-THC could help to prevent traffic accidents. The current study describes, for the first time, the optimization and validation of the FBBB color test from oral fluid (OF) for field use. The FBBB reaction with Δ9-THC forms a red chromophore and a bright red fluorophore that is visualized with a portable fluorescence reader under UV light. The test was optimized for a miniaturized reaction on a 6.3 mm diameter glass fiber filter spot. The limit of detection (LOD) was established as 0.5 µg/mL or 500 ng/mL of Δ9-THC in OF (5 ng of Δ9-THC on the spot) by fluorescence detection. Other figures of merit include linearity in the 0.5–10 µg/mL range, acceptable precision (9.6–28% RSD) and an accuracy of ± 23.2–56.2%. Results from interference studies using different OF collection devices and substances are reported. Interferences might also occur when minor cannabinoids (CBD, CBN, CBG, and Δ8-THC) and Δ9-THC metabolites (THC-COOH and THC-OH) are also present in the matrix. Pre-loaded FBBB reagent is stable on the substrate when stored below 4 °C for 15 days and the color and fluorescence persist on the spot for at least 30 days post reaction. Future studies include development of an OF extraction procedure coupled to a prototype device for field application.

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口腔液体中δ -9-四氢大麻酚(Δ9-THC)快速蓝BB (FBBB)筛选试验的优化与验证

快速蓝BB试验(FBBB)比色试验先前已被验证用于区分大麻型和大麻型大麻植物。受-9-四氢大麻酚(Δ9-THC)影响的个人可能无法进行驾驶等活动，对最近使用Δ9-THC的情况进行快速、现场检测有助于预防交通事故。本研究首次对口服液(of)中FBBB颜色试验进行了优化和验证。FBBB与Δ9-THC反应形成红色发色团和亮红色荧光团，用便携式荧光仪在紫外线下观察。该试验优化为在6.3 mm直径的玻璃纤维滤点上进行微型化反应。荧光检测的检出限(LOD)分别为0.5µg/mL或500 ng/mL of of中Δ9-THC(现场5 ng Δ9-THC)。其他指标包括0.5-10µg/mL范围内的线性，可接受的精密度(9.6-28% RSD)和±23.2-56.2%的准确度。本文报道了使用不同OF收集装置和物质进行干扰研究的结果。当基质中也存在少量大麻素(CBD、CBN、CBG和Δ8-THC)和Δ9-THC代谢物(THC-COOH和THC-OH)时，也可能发生干扰。预载的FBBB试剂在4℃以下保存15天后，在底物上是稳定的，反应后的颜色和荧光在现场持续至少30天。未来的研究包括开发一种与现场应用的原型设备相结合的of提取程序。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Forensic Chemistry CHEMISTRY, ANALYTICAL-

CiteScore

5.70

自引率

14.80%

发文量

审稿时长

46 days

期刊介绍： Forensic Chemistry publishes high quality manuscripts focusing on the theory, research and application of any chemical science to forensic analysis. The scope of the journal includes fundamental advancements that result in a better understanding of the evidentiary significance derived from the physical and chemical analysis of materials. The scope of Forensic Chemistry will also include the application and or development of any molecular and atomic spectrochemical technique, electrochemical techniques, sensors, surface characterization techniques, mass spectrometry, nuclear magnetic resonance, chemometrics and statistics, and separation sciences (e.g. chromatography) that provide insight into the forensic analysis of materials. Evidential topics of interest to the journal include, but are not limited to, fingerprint analysis, drug analysis, ignitable liquid residue analysis, explosives detection and analysis, the characterization and comparison of trace evidence (glass, fibers, paints and polymers, tapes, soils and other materials), ink and paper analysis, gunshot residue analysis, synthetic pathways for drugs, toxicology and the analysis and chemistry associated with the components of fingermarks. The journal is particularly interested in receiving manuscripts that report advances in the forensic interpretation of chemical evidence. Technology Readiness Level: When submitting an article to Forensic Chemistry, all authors will be asked to self-assign a Technology Readiness Level (TRL) to their article. The purpose of the TRL system is to help readers understand the level of maturity of an idea or method, to help track the evolution of readiness of a given technique or method, and to help filter published articles by the expected ease of implementation in an operation setting within a crime lab.