Stability of Nano-Emulsified Cannabidiol in Acidic Foods and Beverages.

IF 3.1 4区医学 Q2 PHARMACOLOGY & PHARMACY

Cannabis and Cannabinoid Research Pub Date : 2025-04-01 Epub Date: 2024-06-18 DOI:10.1089/can.2024.0064

Lawrance D Mullen, E Dale Hart, Svante Vikingsson, Ruth E Winecker, Eugene Hayes, Ron Flegel, Lisa D Davis, Eric R Welsh, Mahmoud ElSohly, Waseem Gul, Tim Murphy, Iram Shahzadi, Kareem ElSohly, Edward J Cone

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Abstract

Introduction: Food and beverage products containing cannabidiol (CBD) is a growing industry, but some CBD products contain Δ⁹-tetrahydrocannabinol (Δ⁹-THC), despite being labeled as "THC-free". As CBD can convert to Δ⁹-THC under acidic conditions, a potential cause is the formation of Δ⁹-THC during storage of acidic CBD products. In this study, we investigated if acidic products (pH ≤ 4) fortified with CBD would facilitate conversion to THC over a 2-15-month time period. Materials and Methods: Six products, three beverages (lemonade, cola, and sports drink) and three condiments (ketchup, mustard, and hot sauce), were purchased from a local grocery store and fortified with a nano-emulsified CBD isolate (verified as THC-free by testing). The concentrations of CBD and Δ⁹-THC were measured by Gas Chromatography Flame Ionization Detector (GC-FID) and Liquid Chromatography with tandem mass spectrometry (LC-MS/MS), respectively, for up to 15 months at room temperature. Results: Coefficients of variation (CVs) of initial CBD concentrations by GC-FID were <10% for all products except ketchup (18%), showing homogeneity in the fortification. Formation of THC was variable, with the largest amount observed after 15 months in fortified lemonade #2 (3.09 mg Δ⁹-THC/serving) and sports drink #2 (1.18 mg Δ⁹-THC/serving). Both beverages contain citric acid, while cola containing phosphoric acid produced 0.10 mg Δ⁹-THC/serving after 4 months. The importance of the acid type was verified using acid solutions in water. No more than 0.01 mg Δ⁹-THC/serving was observed with the condiments after 4 months. Discussion: Conversion of CBD to THC can occur in some acidic food products when those products are stored at room temperature. Therefore, despite purchasing beverages manufactured with a THC-free nano-emulsified form of CBD, consumers might be at some risk of unknowingly ingesting small amounts of THC. The results indicate that up to 3 mg Δ⁹-THC from conversion can be present in a serving of CBD-lemonade. Based on the previous studies, 3 mg Δ⁹-THC might produce a positive urine sample (≥15 ng/mL THC carboxylic acid) in some individuals. Conclusion: Consumers must exert caution when consuming products with an acidic pH (≤4) that suggests that they are "THC-Free," because consumption might lead to positive drug tests or, in the case of multiple doses, intoxication.

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纳米乳化大麻二酚在酸性食品和饮料中的稳定性。

导言：含有大麻二酚（CBD）的食品和饮料产品是一个不断发展的行业，但有些 CBD 产品尽管标明 "不含四氢大麻酚"，却含有 Δ9-四氢大麻酚（Δ9-THC）。由于 CBD 可在酸性条件下转化为 Δ9-THC，因此酸性 CBD 产品在储存过程中可能会形成 Δ9-THC。在这项研究中，我们调查了添加了 CBD 的酸性产品（pH ≤ 4）是否会在 2-15 个月的时间内促进向四氢大麻酚的转化。材料与方法：从当地一家杂货店购买了六种产品，包括三种饮料（柠檬水、可乐和运动饮料）和三种调味品（番茄酱、芥末酱和辣酱），并添加了纳米乳化 CBD 分离物（经检测证实不含四氢大麻酚）。在室温条件下，通过气相色谱火焰离子化检测器（GC-FID）和液相色谱串联质谱法（LC-MS/MS）分别对 CBD 和 Δ9-THC 的浓度进行了长达 15 个月的测定。结果GC-FID 法测得的 CBD 初始浓度变异系数（CVs）为 9-THC/份）和 2 号运动饮料（1.18 毫克 Δ9-THC/份）。这两种饮料都含有柠檬酸，而含有磷酸的可乐在 4 个月后每份可产生 0.10 毫克 Δ9-THC。酸类型的重要性通过酸水溶液得到了验证。4 个月后，每份调味品中的 Δ9-THC含量不超过 0.01 毫克。讨论：某些酸性食品在室温下储存时，CBD 可能会转化为 THC。因此，尽管消费者购买了用不含四氢大麻酚的纳米乳化 CBD 制造的饮料，但仍有可能在不知情的情况下摄入少量的四氢大麻酚。研究结果表明，一份 CBD 柠檬水中可能含有多达 3 毫克的Δ9-四氢大麻酚。根据以往的研究，3 毫克 Δ9-THC 可能会使某些人的尿样呈阳性（≥15 纳克/毫升 THC 羧酸）。结论消费者在食用pH值呈酸性（≤4）且声称 "不含四氢大麻酚 "的产品时必须谨慎，因为食用后可能会导致药物检测呈阳性，或在多次服用的情况下导致中毒。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cannabis and Cannabinoid Research PHARMACOLOGY & PHARMACY-

CiteScore

6.80

自引率

7.90%

发文量

164