三种先进色谱技术用于大麻鉴别的比较。

Bulletin on narcotics Pub Date : 1994-01-01
D Debruyne, F Albessard, M C Bigot, M Moulin
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引用次数: 0

摘要

随着色谱技术的发展,越来越多的易于使用的质谱仪与气相色谱(GC)相结合,二极管阵列或可编程可变波长紫外吸收检测器与高效液相色谱(HPLC)相结合,以及能够在紫外和可见区域读取薄层色谱(TLC)板的扫描仪的可用性,使得标准分析实验室在打击吸毒成瘾的工作中有时需要对大麻样本进行更快和更积极的鉴定。在不具备气相色谱和质谱相结合技术的实验室中,可以使用以下涉及HPLC或TLC技术的程序:通过与已发表的数据进行比较,并结合在200至300 nm之间获得的每种成分的特定吸收光谱,确定大麻二酚(CBD), δ -9-四氢大麻酚(δ -9- thc)和大麻酚(CBN)三种主要大麻成分对应的色谱峰。在高效液相色谱系统出口采集三种主要大麻素对应的组分,并在气相色谱过程中通过火焰电离检测交叉核对其身份,可以进一步确证鉴定,最大限度地减少因干扰而可能产生的误差。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of three advanced chromatographic techniques for cannabis identification.

The development of chromatography technology, with the increasing availability of easier-to-use mass spectrometers combined with gas chromatography (GC), the use of diode-array or programmable variable-wavelength ultraviolet absorption detectors in conjunction with high-performance liquid chromatography (HPLC), and the availability of scanners capable of reading thin-layer chromatography (TLC) plates in the ultraviolet and visible regions, has made for easier, quicker and more positive identification of cannabis samples that standard analytical laboratories are occasionally required to undertake in the effort to combat drug addiction. At laboratories that do not possess the technique of GC combined with mass spectrometry, which provides an irrefutable identification, the following procedure involving HPLC or TLC techniques may be used: identification of the chromatographic peaks corresponding to each of the three main cannabis constituents-cannabidiol (CBD), delta-9-tetrahydrocannabinol (delta-9-THC) and cannabinol (CBN)-by comparison with published data in conjunction with a specific absorption spectrum for each of those constituents obtained between 200 and 300 nm. The collection of the fractions corresponding to the three major cannabinoids at the HPLC system outlet and the cross-checking of their identity in the GC process with flame ionization detection can further corroborate the identification and minimize possible errors due to interference.

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