Cannabis product testing

Cannabis product testing is a form of product testing analyzes the quality of cannabis extracts, edibles, and THC and CBD levels in an emergent consumer market eager to sell adult use products.[1] Analytical chemistry and microbiology laboratories are important entities in consumer protection. These labs not only determine the condition and viability of cannabinoids, water content, heavy metals, pesticides,[2] terpenes, yeast, but also the presence of mold, mycotoxins, and solvents.[3][4] These laboratories emerged when advocates of cannabis testing raised concerns about potential contaminants.[5][6][7]

The popularity of cannabis and cannabinoid products continues to escalate following the legalization of cannabinoid products in the United States since 2012.

Since 2012, ten states (Colorado, Oregon, Washington, Alaska, California, Nevada, Maine, Massachusetts, Vermont, and, in November 2018, by popular referendum, Michigan) and the District of Columbia have legalized recreational cannabis consumption and, except for the District of Columbia and Vermont, acted to implement legislation that also legalizes commercial production. By 2016, 23 states had legalized medical cannabis. Additionally, a number of states, as far back as the 1960s, have decriminalized the possession of small quantities of cannabis for personal use.[8]

By 2020, the majority of the U.S. population can purchase cannabis and cannabinoid products as easily as alcohol.[1] But exposure to contaminants is often overlooked. Limited regulation threatens product safety in the "gold rush" era of a fast-growing cannabis industry. Analytical chemistry and microbiology testing that protects consumer safety and prevents unfair practices becomes an added cost that most startups avoid due to the lack of oversight of recreational and medicinal cannabis in the United States.[9] Advanced analytical testing is critical given trade-offs between safety and quality in cannabinoid therapeutics and nutraceuticals. Product or compliance testing determines the chemical makeup and overall quality of the formulation before the sale of products.[1][10]

  1. ^ a b c Clarke, Vanessa; Lin, Melody (December 1, 2020). "Cannabis Compliance Testing: Safety vs. Quality". Cannabis Industry Journal. Retrieved December 16, 2022.
  2. ^ CEM, C. (2018). "Extraction of Pesticides from Cannabis" (PDF). AP0168: 1–5.
  3. ^ Small 2016.
  4. ^ St. Louis 2018, p. 384.
  5. ^ Matt Ferner (December 4, 2013), "Marijuana Can Be Covered In Mold, E.Coli, Insect Parts And Pollutants", Huffington Post
  6. ^ Joel Grover; Matthew Glasser (February 22, 2017), Pesticides and Pot: What's California Smoking? An NBC4 I-Team investigation found evidence suggesting that pesticides could be present in a lot of marijuana legally sold in California, Los Angeles: KNBC-TV News
  7. ^ Ben Parker Karris (June 22, 2016), "Unknown Unknowns: Why Cannabis Needs Standardized Lab Testing Now – From fentanyl-laced weed to pesticide-polluted flower, the importance of accuracy in lab test results cannot be overstated", Kindland, Kind, archived from the original on June 24, 2017, retrieved June 26, 2017
  8. ^ Prestemon, Jeffrey P., Frank H. Koch, Geoffrey H. Donovan, and Mary T. Lihou. "Cannabis legalization by states reduces illegal growing on US national forests." Public Law 91 (2016): 513. https://forestthreats.org/products/publications/Prestemon%20et%20al%202019%20Ecological%20Economics.pdf
  9. ^ Goldman, Stephen; Bramante, Julia; Vrdoljak, Gordon; Guo, Weihong; Wang, Yun; Marjanovic, Olivera; Orlowicz, Sean; Di Lorenzo, Robert; Noestheden, Matthew (June 15, 2021). "The analytical landscape of cannabis compliance testing". Journal of Liquid Chromatography & Related Technologies. 44 (9–10): 403–420. doi:10.1080/10826076.2021.1996390. ISSN 1082-6076. S2CID 245157194.
  10. ^ Pusiak, Ryan JP; Cox, Chelsea; Harris, Cory S. (July 1, 2021). "Growing pains: An overview of cannabis quality control and quality assurance in Canada". International Journal of Drug Policy. 93: 103111. doi:10.1016/j.drugpo.2021.103111. ISSN 0955-3959. PMID 33478804. S2CID 231677596.