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Stabilnost kanabidiola in ostalih kanabinoidov v rastlinskih oljih in maslih
ID Sebanc, Peter (Author), ID Kreft, Samo (Mentor) More about this mentor... This link opens in a new window, ID Tavčar Benković, Eva (Comentor)

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Abstract
Konoplja (Cannabis sativa L.) je rastlina, ki je vse bolj zanimiva za farmacevtsko, prehransko in kozmetično industrijo, saj vsebuje različne sekundarne metabolite, med katerimi so najpomembnejši kanabinoidi, ki blagodejno vplivajo na različne fiziološke procese pri ljudeh in živalih. Ker v literaturi obstaja zelo malo podatkov o stabilnosti kanabinoidov, smo se v tej magistrski nalogi odločili, da preverimo, kakšna je njihova stabilnost v različnih rastlinskih oljih in maslih. Preverili smo stabilnost štirih različnih virov kanabinoidov, in sicer čistemu, izoliranemu kanabidiolu (CBD), izopropanolnemu ekstraktu konoplje, CO2 ekstraktu konoplje in konopljinim trihomom. Pri tem smo uporabili 4 različne lipofilne medije in sicer konopljino olje (z ali brez terpenov), olje s srednjeverižnimi maščobnimi kislinami, kokosovo olje in kakavovo maslo. Pri izopropanolnem ekstraktu in trihomih pa smo preverili stabilnost kanabinoidov tudi brez dodanega medija. Tako smo pripravili 14 različnih vzorcev v 2 paralelkah, ki smo jih postavili v improvizirano stabilnostno komoro (sušilnik za steklovino) na 40 °C. S HPLC analizno metodo smo nato določali vsebnost kanabinoidov ob pripravi vzorcev, po 34 dneh in po 99 dneh na temperaturi 40 °C. Pri tem smo preverjali spreminjanje koncentracije kanabinoidov CBD, CBDA, ?9-THC, CBN, CBG in CBC. Ugotovili smo, da se koncentracija kanabinoidov CBD, CBG in CBC le rahlo spreminjala iz česar lahko sklepamo, da so ti kanabinoidi stabilni. CBDA se je tekom staranja spreminjal v CBD, ?9-THC pa se je izkazal za najmanj stabilen kanabinoid, saj se je njegova koncentracija v večini vzorcev zmanjšala skoraj za polovico, posledično pa se je povečala koncentracija CBN vendar je pri tem nastal materialni primanjkljaj, s čimer smo dokazali, da pri razpadu ?9-THC ne nastane samo CBN temveč tudi drugi produkti.

Language:Slovenian
Keywords:konoplja, kanabinoidi, stabilnost, lipofilna formulacija
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2019
PID:20.500.12556/RUL-111441 This link opens in a new window
Publication date in RUL:01.10.2019
Views:1305
Downloads:296
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Secondary language

Language:English
Title:Stability of cannabidiol and other cannabinoids in vegetable oils and butters
Abstract:
Cannabis (Cannabis sativa L.) is a plant, which is becoming more enticing to the pharmaceutical, food, and cosmetic industry, because it contains numerous secondary metabolites, the most important of which are cannabinoids that have soothing effects on the physiological processes of humans and animals. Because there is very little existing literature on the stability of cannabinoids, we decided, to test their stability in different plant oils and butters. We tested the stability of four different sources of cannabinoids. Namely, the pure, isolated cannabinoid (CBD), isopropanolic cannabis extract, CO2 cannabis extract and cannabis trichomes. Here, we used 4 different lipophilic mediums: cannabis oil (with or without terpenes) MTC oil, coconut oil and cocoa butter. With the isopropanol extract and trichomes we also tested the stability of cannabinoids without the added medium. In this way, we prepared 14 different samples in 2 parallels, which we placed in an improvised stability chamber (glassware dryer) on 40 °C. We then determined the cannabinoid content in samples kept at 40 °C after 34 days, and after 99 days using HPLC analysis. In doing so, we tested the changes in the concentration of cannabinoids CBD, CBDA, Δ9-THC, CBN, CBG, and CBC. We came to the conclusion, that the concentration of the cannabinoids CBD, CBG and CBC, only slight changes, from which we can conclude that these cannabinoids are stable. With the passage of time CBDA was changing into the CBD, Δ9-THC, however, proved to be the least stable cannabinoid, as its concentration decreased by almost half in most samples. As a result, the CBN concentration increased, but a material deficit was created, with which we proved that not only CBN but also other intermediates are formed during Δ9-THC decay.

Keywords:cannabis, cannabinoids, stability, lipophilic formulation

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