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RSC Adv


Title:The influence of terpenes on the release of volatile organic compounds and active ingredients to cannabis vaping aerosols
Author(s):Meehan-Atrash J; Luo W; McWhirter KJ; Dennis DG; Sarlah D; Jensen RP; Afreh I; Jiang J; Barsanti KC; Ortiz A; Strongin RM;
Address:"Department of Chemistry, Portland State University Portland Oregon 97207-0751 USA strongin@pdx.edu. Department of Civil and Environmental Engineering, Portland State University Portland Oregon 97207-0751 USA. Roger Adams Laboratory, Department of Chemistry, University of Illinois Urbana Illinois 61801 USA. Florascience Inc. Milwaukie OR 97222 USA. Chemical and Environmental Engineering, Center for Environmental Research and Technology, University of California-Riverside Riverside California 92521 USA"
Journal Title:RSC Adv
Year:2021
Volume:20210323
Issue:19
Page Number:11714 - 11723
DOI: 10.1039/d1ra00934f
ISSN/ISBN:2046-2069 (Electronic) 2046-2069 (Linking)
Abstract:"Dabbing and vaping cannabis extracts have gained large popularity in the United States as alternatives to cannabis smoking, but diversity in both available products and consumption habits make it difficult to assess consumer exposure to psychoactive ingredients and potentially harmful components. This work studies the how relative ratios of the two primary components of cannabis extracts, Delta(9)-tetrahydrocannabinol (THC) and terpenes, affect dosage of these and exposure to harmful or potentially harmful components (HPHCs). THC contains a monoterpene moiety and has been previously shown to emit similar volatile degradation products to terpenes when vaporized. Herein, the major thermal degradation mechanisms for THC and beta-myrcene are elucidated via analysis of their aerosol gas phase products using automated thermal desorption-gas chromatography-mass spectrometry with the aid of isotopic labelling and chemical mechanism modelling. Four abundant products - isoprene, 2-methyl-2-butene, 3-methylcrotonaldehyde, and 3-methyl-1-butene - are shown to derive from a common radical intermediate for both THC and beta-myrcene and these products comprise 18-30% of the aerosol gas phase. The relative levels of these four products are highly correlated with applied power to the e-cigarette, which indicates formation of these products is temperature dependent. Vaping THC-beta-myrcene mixtures with increasing % mass of beta-myrcene is correlated with less degradation of the starting material and a product distribution suggestive of a lower aerosolization temperature. By contrast, dabbing THC-beta-myrcene mixtures with increasing % mass of beta-myrcene is associated with higher levels of HPHCs, and isotopic labelling showed this is due to increased reactivity of beta-myrcene relative to THC"
Keywords:
Notes:"PubMed-not-MEDLINEMeehan-Atrash, Jiries Luo, Wentai McWhirter, Kevin J Dennis, David G Sarlah, David Jensen, Robert P Afreh, Isaac Jiang, Jia Barsanti, Kelley C Ortiz, Alisha Strongin, Robert M eng England 2022/04/16 RSC Adv. 2021 Mar 23; 11(19):11714-11723. doi: 10.1039/d1ra00934f. eCollection 2021 Mar 16"

 
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