STABILITY STUDIES OF FINISHED PRODUCT OF DRY MEDICAL CANNABIS FLOWER: ANALYSIS OF QUALITY AND CANNABINOID CONTENT
Keywords:
stability studies, medical cannabis, cannabinoids, HPLC-UV, ICH Q1A(R2), GMPAbstract
With the increased therapeutic use of medical cannabis, ensuring quality, safety, and efficacy throughout shelf life is essential. This study evaluates stability of dry medical cannabis flower under different storage conditions, focusing on physicochemical quality and cannabinoid content changes over time. Three production batches (P050022, P050072, P050202) of THC-dominant dry cannabis flower (Chemotype I, Total THC >20%) produced at Purely Plant GmbH, were subjected to long-term stability studies (LTSS: 25°C ± 2°C, 60% ± 5% RH) and accelerated stability studies (ACCSS: 40°C ± 2°C, 75% ± 5% RH) over a 3-month period in accordance with ICH Q1A(R2) guidelines. Cannabinoid content was analyzed using validated HPLC-UV method based on German Pharmacopoeia (DAB) Cannabis flos monograph. Initial Total THC content was 23.84 ± 1.40% (n=3 batches). Under LTSS conditions, Total THC showed degradation of 7.27-9.40% after 3 months, while THCA decarboxylation reached 25-29%, with calculated half-lives of 21-28 months. Under ACCSS conditions, THCA decarboxylation was nearly complete (>97%) after 1 month, with Total THC degradation of 6.94-16.23%. Kinetic analysis revealed rate constants k = 0.025-0.033 month⁻¹ for LTSS and Q10 factor of 1.37. CBN formation as oxidative degradation marker remained below specification (<1.0%) under all conditions, confirming effectiveness of nitrogen atmosphere packaging (PET/ALU/PE). Microbiological purity and heavy metal content remained within pharmacopeial limits. This study demonstrates acceptable stability under recommended storage conditions (≤25°C, RH 55-65%, protected from light, inert atmosphere), supporting minimum 12-month shelf life with potential extension to 24 months pending continued studies
References
Ahmad, R., Rehman, M.U., Ahmad, M., & Arafah, A. (2022). Quality control of cannabis inflorescence and oil products: Response factors for the cost-efficient determination of ten cannabinoids by HPLC. Phytochem Anal Acta, 13(3), 1-9. doi:10.4172/2153-0769.1000293
El-Khoury, R., Mansour, R., Kfoury, M., Sarakbi, A., Maroun, R.G., Chidiac, F., Walrant, A., & Louka, N. (2024). Chemometric and predictive modeling of long term cannabinoid transformation in stored Cannabis sativa resin. Sci Rep, 14, 22860. doi:10.1038/s41598-025-03888-7
ElSohly, M.A., et al. (2017). Phytochemistry of Cannabis sativa L. Phytocannabinoids, Vol. 103, pp. 1-36. Springer. doi:10.1007/978-3-319-45541-9_1
ICH. (2003). Q1A(R2): Stability Testing of New Drug Substances and Products. ICH Harmonised Guideline.
ICH. (2005). Q1E: Evaluation of Stability Data. ICH Harmonised Guideline.
Pertwee, R.G. (2008). The diverse CB1 and CB2 receptor pharmacology of plant cannabinoids. Br J Pharmacol, 153(2), 199-215.
ICH Expert Working Group. (2025). ICH Q1 Stability Testing of Drug Substances and Drug Products (Draft). International Council for Harmonisation. Available from: https://database.ich.org/sites/default/files/ICH_Q1EWG_Step2_Draft_Guideline_2025_0411.pdf
Jaidee, W., Siridechakorn, I., Nessopa, S., Wisuitiprot, V., Chaiwangrach, N., Ingkaninan, K., & Waranuch, N. (2022). Kinetics of CBD, Δ9-THC Degradation and Cannabinol Formation in Cannabis Resin at Various Temperature and pH Conditions. Cannabis Cannabinoid Res, 7(4), 537-547. doi:10.1089/can.2021.0004
Kühn-Hebecker, A. (2025). New Quality Standards for Medical Cannabis and CBD. GMP Journal, February 20. Available from: https://www.gmp-journal.com/current-articles/details/new-quality-standards-for-medical-cannabis-and-cbd.html
Lindholst, C. (2010). Long term stability of cannabis resin and extracts. Aust J Forensic Sci, 42(3), 181-190.
National Academies. (2017). Health Effects of Cannabis and Cannabinoids. NAP. doi:10.17226/24625
Trofin, I.G., et al. (2016). Long-term storage and cannabis oil stability. Rev Chim, 63(3), 293-297.
Wang, M., et al. (2016). Decarboxylation study of acidic cannabinoids. Cannabis Cannabinoid Res, 1(1), 262-271.
Whiting, P.F., et al. (2015). Cannabinoids for medical use: A systematic review. JAMA, 313(24), 2456-2473.
