Improved GC method for the determination of the active principles of Catha edulis

Determination of cathinone and cathine in Khat plant material by LC-MS/MS: Fresh vs. dried leaves

The consumption of Khat leaves represents an ancient kind of drug abuse mainly observed in Eastern Africa and the Arab Peninsula among adult men. For this purpose, the leaves are directly collected from the shrub "Catha edulis" prior to extensive chewing process. Seizures in Europe are rare, since the leaves have to undergo quick transportation: After a short period of time, the harvested leaves decompose and suffer in decrease of concentration of the active ingredient cathinone, which makes long term transportation difficult. As an alternative, plant material can be dried to increase life period. In the past years, an increasing number of seizures were made by Austrian police, however, the content of cathinone and cathine in dry material is widely unknown. In this work, a seizure of fresh Khat leaves was compared with two seizures of dried material in terms of concentration of cathinone and cathine using LC-MS/MS analysis. For fresh leaves, a purity grade was found to be 0.115-0.158% for cathinone and 0.172-0.192% for cathine, respectively. In contrast, subsequent storage of dried Khat leaves over months led to a dramatic loss of cathinone: Analysis of two seizures revealed that concentration of cathinone dropped to 0.021-0.023%. These findings are intended to serve as a guideline for Justice authorities to estimate the content of the controlled ingredients of Khat leaves in future.

Screening of new psychoactive substances (NPS) by gas-chromatography/time of flight mass spectrometry (GC/MS-TOF) and application to 63 cases of judicial seizure

A screening method for the separation and identification of more than fifty NPS is proposed. The method is based on fast gas-chromatography/time of flight mass spectrometry (FAST-GC/MS-TOF). Thanks to the shorter and narrower capillary column and to the rapid acquisition of the TOF detector a huge number of compounds are separated in a very short time of analysis (10 min). Only a few peaks were overlapped. The possibility to apply deconvolution by the software of the GC/MS-TOF instrument allowed the unequivocal identification also for the superimposed peaks. Linearity and LOD was studied and the method was applied to 63 cases of powders seized by the judicial authority at the airport of Milano Malpensa in Northern Italy in the period 2014–2017.

Employing Two-stage Derivatisation and GC-MS to Assay for Cathine and Related Stimulant Alkaloids across the Celastraceae

INTRODUCTION

Catha edulis (qat, khat, mirra) is a woody plant species that is grown and consumed in East Africa and Yemen for its stimulant alkaloids cathinone, cathine and norephedrine. Two Celastraceae species, in addition to qat, have been noted for their stimulant properties in ethnobotanical literature. Recent phylogenetic reconstructions place four genera in a clade sister to Catha edulis, and these genera are primary candidates to search for cathine and related alkaloids.

OBJECTIVE

Determine if cathine or related alkaloids are present in species of Celastraceae other than Catha edulis.

METHODS

Leaf samples from 43 Celastraceae species were extracted in water followed by basification of the aqueous extract and partitioning with methyl-t-butyl ether to provide an alkaloid-enriched fraction. The extract was derivatised in a two-stage process and analysed using GC-MS for the presence of cathine. Related alkaloids and other metabolites in this alkaloid-enriched fraction were tentatively identified.

RESULTS

Cathinone, cathine and norephedrine were not detected in any of the 43 Celastraceae species assayed other than Catha edulis. However, the phenylalanine- or tyrosine-derived alkaloid phenylethylamine was identified in five species. Nine species were found to be enriched for numerous sterol- and terpene-like compounds.

CONCLUSION

These results indicate that cathine is unique to Catha edulis, and not the compound responsible for the stimulant properties reported in related Celastraceae species. Copyright © 2017 John Wiley & Sons, Ltd.