Commercial cannabis consumer products part 1: GC–MS qualitative analysis of cannabis cannabinoids

•Cannabinoids GC–MS identification in large variety of commercial cannabis products.•Foods, candies, beverages, topicals, vapes/eliquids, oral supplements.•11 cannabis cannabinoids resolved with 35% silphenylene stationary phase.•Common interferents minimized using selective extraction and sample pr...

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Veröffentlicht in:	Forensic science international 2018-08, Vol.289, p.429-437
Hauptverfasser:	Ciolino, Laura A., Ranieri, Tracy L., Taylor, Allison M.
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Sprache:	eng
Schlagworte:	Acetonitrile Analgesics Beverages Caffeine Cannabidiol Cannabinoids Cannabis Cannabis cannabinoids Commercial cannabis products Consumer products Edible oils Ethanol Extractants Food Forensic sciences Gas chromatography–mass spectrometry (GC–MS) Glycerol Lactose Marijuana Melatonin Nonsteroidal anti-inflammatory drugs Plant extracts Plant preparations Propylene Propylene glycol Qualitative analysis Qualitative research Retention Tetrahydrocannabinol Δ9-Tetrahydrocannabinol
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description	•Cannabinoids GC–MS identification in large variety of commercial cannabis products.•Foods, candies, beverages, topicals, vapes/eliquids, oral supplements.•11 cannabis cannabinoids resolved with 35% silphenylene stationary phase.•Common interferents minimized using selective extraction and sample pretreatment.•Substantial method validation for CBD, Δ9-THC, CBDA, THCA, and CBN. The recent surge in the sale of cannabis-based consumer products in the US includes foods, candies, beverages, topicals, vapes/eliquids, oral supplements in various forms, recreational marijuana plants, and plant extracts or preparations. The wide variety of product and sample types has resulted in a host of new matrix interferences when conducting qualitative testing for the cannabis cannabinoids such as cannabidiol and d9-tetrahydrocannabinol. A qualitative GC–MS method is presented in this work, which uses a commercial 35% silphenylene phase to provide chromatographic resolution for 11 target cannabinoids as their trimethylsilyl derivatives (CBD, CBDA, d9THC, THCA, CBN, d8THC, CBG, CBGA, CBDV, THCV, and CBC). The method uses variants of ethanol- and acetonitrile-based extractants to successfully minimize or eliminate several types of interferents, and also provides protocols to address specific interferents such as glycerin and lactose. Method validation included spike/recovery for five cannabinoids of primary interest (spiking level 50μg/g) from a series of edible oils, foods, beverages, candies, topicals, oral OTC pharmaceuticals, glycerin, and propylene glycol. The minimum detectable concentration was established as 1.0μg/g. The method was applied to about sixty diverse commercial products, as well as to recreational marijuana plants, plant preparations, hempseed oils, and dronabinol capsules.
doi_str_mv	10.1016/j.forsciint.2018.05.032
format	Article
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The recent surge in the sale of cannabis-based consumer products in the US includes foods, candies, beverages, topicals, vapes/eliquids, oral supplements in various forms, recreational marijuana plants, and plant extracts or preparations. The wide variety of product and sample types has resulted in a host of new matrix interferences when conducting qualitative testing for the cannabis cannabinoids such as cannabidiol and d9-tetrahydrocannabinol. A qualitative GC–MS method is presented in this work, which uses a commercial 35% silphenylene phase to provide chromatographic resolution for 11 target cannabinoids as their trimethylsilyl derivatives (CBD, CBDA, d9THC, THCA, CBN, d8THC, CBG, CBGA, CBDV, THCV, and CBC). The method uses variants of ethanol- and acetonitrile-based extractants to successfully minimize or eliminate several types of interferents, and also provides protocols to address specific interferents such as glycerin and lactose. 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The recent surge in the sale of cannabis-based consumer products in the US includes foods, candies, beverages, topicals, vapes/eliquids, oral supplements in various forms, recreational marijuana plants, and plant extracts or preparations. The wide variety of product and sample types has resulted in a host of new matrix interferences when conducting qualitative testing for the cannabis cannabinoids such as cannabidiol and d9-tetrahydrocannabinol. A qualitative GC–MS method is presented in this work, which uses a commercial 35% silphenylene phase to provide chromatographic resolution for 11 target cannabinoids as their trimethylsilyl derivatives (CBD, CBDA, d9THC, THCA, CBN, d8THC, CBG, CBGA, CBDV, THCV, and CBC). The method uses variants of ethanol- and acetonitrile-based extractants to successfully minimize or eliminate several types of interferents, and also provides protocols to address specific interferents such as glycerin and lactose. 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The recent surge in the sale of cannabis-based consumer products in the US includes foods, candies, beverages, topicals, vapes/eliquids, oral supplements in various forms, recreational marijuana plants, and plant extracts or preparations. The wide variety of product and sample types has resulted in a host of new matrix interferences when conducting qualitative testing for the cannabis cannabinoids such as cannabidiol and d9-tetrahydrocannabinol. A qualitative GC–MS method is presented in this work, which uses a commercial 35% silphenylene phase to provide chromatographic resolution for 11 target cannabinoids as their trimethylsilyl derivatives (CBD, CBDA, d9THC, THCA, CBN, d8THC, CBG, CBGA, CBDV, THCV, and CBC). The method uses variants of ethanol- and acetonitrile-based extractants to successfully minimize or eliminate several types of interferents, and also provides protocols to address specific interferents such as glycerin and lactose. Method validation included spike/recovery for five cannabinoids of primary interest (spiking level 50μg/g) from a series of edible oils, foods, beverages, candies, topicals, oral OTC pharmaceuticals, glycerin, and propylene glycol. The minimum detectable concentration was established as 1.0μg/g. The method was applied to about sixty diverse commercial products, as well as to recreational marijuana plants, plant preparations, hempseed oils, and dronabinol capsules.</abstract><cop>Ireland</cop><pub>Elsevier B.V</pub><pmid>29954632</pmid><doi>10.1016/j.forsciint.2018.05.032</doi><tpages>9</tpages></addata></record>
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subjects	Acetonitrile Analgesics Beverages Caffeine Cannabidiol Cannabinoids Cannabis Cannabis cannabinoids Commercial cannabis products Consumer products Edible oils Ethanol Extractants Food Forensic sciences Gas chromatography–mass spectrometry (GC–MS) Glycerol Lactose Marijuana Melatonin Nonsteroidal anti-inflammatory drugs Plant extracts Plant preparations Propylene Propylene glycol Qualitative analysis Qualitative research Retention Tetrahydrocannabinol Δ9-Tetrahydrocannabinol
title	Commercial cannabis consumer products part 1: GC–MS qualitative analysis of cannabis cannabinoids
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