Chemical Characteristics, Therapeutic Uses, and Legal Aspects of the Cannabinoids of Cannabis sativa: A Review

Abstract Marijuana (Cannabis sativa) is an important annual medicinal plant that belongs to the Cannabaceae family. It contains 421 substances of 18 chemical types-the most significant compound is δ-9-tetrahydrocannabinol, which causes several effects, both in the Central Nervous System and in several peripheral locations in the organism. The objectives of this scientific review are to mention the anatomical distribution, chemical characteristics and biosynthesis of cannabinoids, as well as its actions mechanisms. The endogenous cannabinoid system, the therapeutic properties of C. sativa and its action on the nociceptive control are described. Finally, the modulators of the cannabinoid system in clinical use are indicated, together with marijuana legalization benefits.

Therapeutic applications based on cannabinoids action / Aplicaciones terapéuticas por acción de los cannabinoides

The interest on cannabinoids became evident between the 1940 and 1950 decades. Although the active substance of the plant was not known, a series of compounds with cannabinomimetic activity were synthesized, which were investigated in animals and clinically. The most widely tested was Δ6α, 10α-THC hexyl. Δ6α, 10α-THC dimethylheptyl (DMHP) antiepileptic effects were studied in several children, with positive results being obtained in some cases. DMHP differs from sinhexyl in that its side chain is DMHP instead of n-hexyl. The first cannabinoid isolated from Cannabis sativa was cannabinol, although its structure was correctly characterized several years later. Cannabidiol was isolated some years later and was subsequently characterized by Mechoulam and Shvo. In 2013, the National Academy of Medicine and the Faculty of Medicine of the National Autonomous University of Mexico, through the Seminar of Studies on Entirety, decided to carry out a systematic review on a subject that is both complex and controversial: the relationship between marijuana and health. In recent years, studies have been conducted with cannabis in several diseases: controlled clinical trials on spasticity in multiple sclerosis and spinal cord injury, chronic, essentially neuropathic, pain, movement disorders (Gilles de Latourette, dystonia, levodopa dyskinesia), asthma and glaucoma, as well as non-controlled clinical trials on Alzheimer’s disease, neuroprotection, intractable hiccups, epilepsy, alcohol and opioid dependence and inflammatory processes.

Qualitative high performance thin layer chromatography (HPTLC) analysis of cannabinoids in urine samples of Cannabis abusers.

Background & objectives: Cannabis is one of the most commonly abused drugs worldwide. There is a distinct clinical correlation between cannabis abuse and mental disorders. However, it is essential to establish cannabis intake in the abusers in order to establish causality between cannabis and psychiatric illness. The limitations of current detection methods using commercial cassettes prompted us to standardize the method of extraction and detection of cannabinoids in the urine samples of cannabis abusers attending a de-addiction centre in south India. Methods: In this study, diagnostic tests on 102 male patients suspected with cannabis abuse were done. Liquid-liquid extraction of cannabinoids from urine was done and screened by Duquenois-Levine, fast blue B salt and p-dimethylaminobenzaldehyde (p-DMAB) tests. All the results were confirmed by high performance thin layer chromatography (HPTLC). Samples were considered positive for cannabis based on the positive indication in colour test and by detection of 11-nor-Δ9 tetrahydrocannabinol-9-carboxylic acid (THC-COOH) on HPTLC. Results: Based on the colour tests and HPTLC, cannabis abuse was detected in 64 of 102 patients tested. HPTLC method was found to be sensitive for detection and possible quantitation of THC-COOH. Interpretation & conclusion: We report the standardization and utility of cannabinoid extraction, screening and detection by HPTLC in the urine samples of cannabis abusers. The HPTLC method was found to be high throughput, sensitive, reproducible and cost-effective compared to commercial kits.