用HPLC-DAD和GC-MS定量分析大麻素和萜烯对加拿大医用大麻品种的分类

Dan Jin, Shengxi Jin, Yang Yu, Colin Lee, Jie Chen
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引用次数: 35

摘要

一个多世纪以来,大麻的研究一直受到其作为麻醉剂的法律地位的阻碍。北美最近将医用大麻合法化,要求对其植物化学成分进行严格的标准化,以保障消费者安全和医疗功效。为了利用医用大麻作为一种可预测的药物,至关重要的是要对数百个品种进行分类,涉及数十种治疗性大麻素和萜烯,而不是目前的工业或法医分类,仅考虑初级大麻素四氢大麻酚(THC)和大麻二酚(CBD)。我们最近开发并验证了使用高压液相色谱(HPLC-DAD)定量大麻素和气相色谱质谱(GC-MS)定量大麻原料中萜烯的分析方法,目前在加拿大上市。我们根据10种大麻素和14种萜烯的含量将来自两家许可生产商的32种大麻样本分为四类。采用聚类分析和主成分分析相结合的方法验证了四氢大麻酚和CBD的分类结果。使用全谱化合物对大麻进行分类将更符合加拿大大麻在临床研究、工业生产和患者自我生产中的实际应用需求。因此,这种整体分类方法将有助于商业化大麻品种的标准化,以支持不断增长的市场。
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Classification of Cannabis Cultivars Marketed in Canada for Medical Purposes byQuantification of Cannabinoids and Terpenes Using HPLC-DAD and GC-MS
For over a century, research on cannabis has been hampered by its legal status as a narcotic. The recent legalization of cannabis for medical purposes in North America requires rigorous standardization of its phytochemical composition in the interest of consumer safety and medicinal efficacy. To utilize medicinal cannabis as a predictable medicine, it is crucial to classify hundreds of cultivars with respect to dozens of therapeutic cannabinoids and terpenes, as opposed to the current industrial or forensic classifications that only consider the primary cannabinoids tetrahydrocannabinol (THC) and cannabidiol (CBD). We have recently developed and validated analytical methods using high-pressure liquid chromatography (HPLC-DAD) to quantify cannabinoids and gas chromatography with mass spectroscopy (GC-MS) to quantify terpenes in cannabis raw material currently marketed in Canada. We classified 32 cannabis samples from two licensed producers into four clusters based on the content of 10 cannabinoids and 14 terpenes. The classification results were confirmed by cluster analysis and principal component analysis in tandem, which were distinct from those using only THC and CBD. Cannabis classification using a full spectrum of compounds will more closely meet the practical needs of cannabis applications in clinical research, insdustrial production, and patients’ self-production in Canada. As such, this holistic classification methodology will contribute to the standardization of commercially-available cannabis cultivars in support of a continuously growing market.
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