Comparison of Non-ephedrine Constituents from Ephedra Plants Cultivated in Japan.

Ephedra plants, the main components of which are ephedrine alkaloids, are used as traditional medicines in Eastern Asian countries. In this study, we isolated non-ephedrine constituents from various Ephedra plant species cultivated in Japan. HPLC analysis suggested that kynurenic acid and its derivatives accumulated in a wide range of Ephedra plant species. Furthermore, a large amount of (2R,3S)-O-benzoyl isocitrate has been isolated from E. intermedia. This study suggests that Ephedra plants have diverse non-ephedrine constituents.

Exploring the New Phenomena of Home-Made Extraction and Injection of Ephedra Plant Product in Georgia.

BACKGROUND: Since the end of 2015, reports by service providers have indicated a new trend in kitchen (homemade) production of an injection drug prepared from an ephedrine-containing conifer bush that is indigenous to the region. OBJECTIVE: The aim of this report is to describe an emerging new homemade psychoactive drug synthesized from the ephedra plant, and the drug consumption methods associated with its' use in the Eurasia. METHODS: Focus groups conducted with 16 people, self-identified as injection drug users (IDU's) who reported at least one incidence of ephedra preparation injection during the previous 30-days. RESULTS: Participants were male, mean age of 43 and mean length of drug use of 22.2 years. Participants identified "conifer vint" as the most frequently injected drug during the 30-day period preceding the focus group. The source plant of the drug identified, as "conifer vint" is plant-based ephedra extracted from a common conifer bush that grows wild and is pervasive in the region. The process of synthesis resembles the production of "vint" (conversion of ephedrine to methamphetamine by reduction) and involves several legal and widely available chemical precursors. The final product of the synthesis is a strong injectable CNS stimulant solution. Conclusions/Importance: The production and use of raw ephedra from a pervasive indigenous plant reflect a new trend in psychoactive drug preparation and use that warrants international attention and has global implications for emerging trends in drug use.

Carbon and Nitrogen Stable Isotope Analyses of Ephedra Plant and Ephedrine Samples and Their Application For Methamphetamine Profiling.

In this study, stable isotope ratio analysis was used to track the precursor information of methamphetamine. The δ13 C and δ15 N values of 30 nature ephedra plants, 12 synthetic ephedrine/pseudoephedrine (ephedrine), 14 natural ephedrine, and 987 seized methamphetamine samples were measured and compared. Due to different weather and earth conditions, the δ13 C and δ15 N values of ephedra plants grown in the east and the west of Inner Mongolia showed great difference. The δ15 N values of ephedra plants were consistent with related ephedrine extracted from them. Moreover, the criteria to infer the synthetic origin of ephedrine were set up after the analysis of natural and synthetic ephedrine samples. Finally, the precursor origins of 949 seized methamphetamine samples synthesized by Emde and Nagai method were tentatively inferred. Influenced by different preprecursors, the δ13 C values of seized methamphetamine samples that synthesized from P2P also showed great difference, and this result is consistent with the reported data.