用于检测生物流体中Δ9-四氢大麻酚的便携式技术和商业产品开发的最新进展:系统综述。

IF 4.1 Q1 PHARMACOLOGY & PHARMACY Journal of cannabis research Pub Date : 2024-02-27 DOI:10.1186/s42238-024-00216-0
Pierrick Clément, Walter K Schlage, Julia Hoeng
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引用次数: 0

摘要

背景:植物大麻素是从大麻植物中提取的 100 多种亲脂性次生代谢物,是目前推动大麻产品商业化的主要成分。虽然许多植物大麻素具有药理作用,但人们最关注的还是Δ9-四氢大麻酚(THC)和大麻二酚这两种含量最高的植物大麻素,因为它们具有潜在的人类应用价值。尽管结构相似,但四氢大麻酚和大麻二酚在精神作用方面存在差异,四氢大麻酚会引起明显的心理变化。目前显然需要准确、快速的四氢大麻酚测量方法,以提供可靠、易于获取和具有成本效益的分析信息。本综述全面介绍了替代技术的现状,这些技术有可能促进制造适合现场使用或作为个人监测器的便携式设备,从而实现非侵入式 THC 测量:利用 PubMed、Scopus 和 Google Scholar 等电子数据库,对 2017 年至 2023 年期间有关开发便携式技术和商业产品检测生物液体中四氢大麻酚的文献进行了调查。采用《系统性综述和荟萃分析首选报告项目》对现有文献进行了系统性综述。结果:结果:89 项研究符合筛选标准。57项经同行评审的研究与分析实验室使用的传统分离技术检测四氢大麻酚有关,这些技术仍被视为黄金标准。此外,还确定了使用光学(12 项)和电化学(13 项)便携式传感器和生物传感器以及市售设备(7 项)的研究:讨论:四氢大麻酚检测技术因其公认的可靠性而主要以免疫测定为主。然而,这些方法有明显的缺点,尤其是在定量分析方面。电化学传感技术在克服定量分析的挑战方面具有巨大潜力,并具有多种优势,包括微型化的可能性以及为提高灵敏度和选择性而进行的各种修改。然而,这些传感器也有相当大的局限性,包括非特异性相互作用以及生物流体中存在的化合物和物质的潜在干扰:结论:检测四氢大麻酚的首要挑战是创造出既稳定又持久的电化学传感器,同时还能表现出卓越的选择性、最小的非特异性相互作用和较低的基质干扰敏感性。在这些传感器成功推向市场之前,需要解决这些方面的问题。
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Recent advances in the development of portable technologies and commercial products to detect Δ9-tetrahydrocannabinol in biofluids: a systematic review.

Background: The primary components driving the current commercial fascination with cannabis products are phytocannabinoids, a diverse group of over 100 lipophilic secondary metabolites derived from the cannabis plant. Although numerous phytocannabinoids exhibit pharmacological effects, the foremost attention has been directed towards Δ9-tetrahydrocannabinol (THC) and cannabidiol, the two most abundant phytocannabinoids, for their potential human applications. Despite their structural similarity, THC and cannabidiol diverge in terms of their psychotropic effects, with THC inducing notable psychological alterations. There is a clear need for accurate and rapid THC measurement methods that offer dependable, readily accessible, and cost-effective analytical information. This review presents a comprehensive view of the present state of alternative technologies that could potentially facilitate the creation of portable devices suitable for on-site usage or as personal monitors, enabling non-intrusive THC measurements.

Method: A literature survey from 2017 to 2023 on the development of portable technologies and commercial products to detect THC in biofluids was performed using electronic databases such as PubMed, Scopus, and Google Scholar. A systematic review of available literature was conducted using Preferred Reporting Items for Systematic. Reviews and Meta-analysis (PRISMA) guidelines.

Results: Eighty-nine studies met the selection criteria. Fifty-seven peer-reviewed studies were related to the detection of THC by conventional separation techniques used in analytical laboratories that are still considered the gold standard. Studies using optical (n = 12) and electrochemical (n = 13) portable sensors and biosensors were also identified as well as commercially available devices (n = 7).

Discussion: The landscape of THC detection technology is predominantly shaped by immunoassay tests, owing to their established reliability. However, these methods have distinct drawbacks, particularly for quantitative analysis. Electrochemical sensing technology holds great potential to overcome the challenges of quantification and present a multitude of advantages, encompassing the possibility of miniaturization and diverse modifications to amplify sensitivity and selectivity. Nevertheless, these sensors have considerable limitations, including non-specific interactions and the potential interference of compounds and substances existing in biofluids.

Conclusion: The foremost challenge in THC detection involves creating electrochemical sensors that are both stable and long-lasting while exhibiting exceptional selectivity, minimal non-specific interactions, and decreased susceptibility to matrix interferences. These aspects need to be resolved before these sensors can be successfully introduced to the market.

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