Stereoselective analysis of ephedrine and its stereoisomers as impurities and/or by-products in seized methamphetamine by supercritical fluid chromatography/tandem mass spectrometry

Analysis of synthetic route and case correlation of methamphetamine crystals seized by ultra-high-performance liquid chromatography-mass spectrometry (UPLC-MS/MS) and Pearson correlation coefficient method

Analysis of impurities in illicit drugs provides key information on the manufacture and distribution of methamphetamine (MA). An analysis of 22 specific target compounds in unlawful MA products was conducted using ultra-high-performance liquid chromatography-mass spectrometry (UPLC-MS/MS). The peak area of the alkaloids was utilized as an important calculation data variable to determine the synthesis method. The results demonstrated that the application of target screening techniques for trace impurity components in samples can aid in determining the synthesis process routes for toxin production in 169 samples. These samples were initially categorized based on their synthesis modes, specifically synthesis routes N, E, and R. The correlation analysis of MA samples with known synthetic routes was carried out using principal coordinate analysis (PCoA) and the Pearson correlation coefficient method. Among the N and R synthesis routes, 15 and 7 groups with strong correlation were screened, respectively. Consistent with the observed scenario, the samples from the synthetic route E showed limited correlation with each other. The experiment provides a focused framework for the management of synthetic raw materials used for the production of drugs and the investigation of drug-related cases. This facilitates a holistic strategy to combat drug-related crimes, from manufacturing laboratory to end-user.

Supercritical Fluid Chromatography for Chiral Analysis, Part 2: Applications

In the second part of this review article, the recent progress in supercritical fluid chromatography (SFC) for enantiomeric separations is evaluated. With the substantial developments carried out over the past years in instrumentation, columns, and detector hyphenation, the interest in chiral SFC has been steadily growing in various fields. In combination with novel developments in chiral stationary phase chemistries, the enantioselective analysis range has been significantly extended. Several applications reported on the enantioselective separation of drugs and pharmaceutical compounds using chiral SFC are discussed, including pharmaceutical applications, clinical research, forensic toxicology, and environmental sciences.

Recent advances in developing optical and electrochemical sensors for analysis of methamphetamine: A review

Recognition of misused stimulant drugs has always been a hot topic from a medical and judicial perspective. Methamphetamine (MAMP) is an addictive and illegal drug that profoundly affects the central nervous system. Like other illicit drugs, the detection of MAMP in biological and street samples is vital for several organizations such as forensic medicine, anti-drug headquarters and diagnostic clinics. By emerging nanotechnology and exploiting nanomaterials in sensing applications, a great deal of attention has been given to the design of analytical sensors in MAMP tracing. For the first time, this study has briefly reviewed all the optical and electrochemical sensors in MAMP detection from earlier so far. How various receptors with engineering nanomaterials allow developing novel approaches to measure MAMP have been studied. Fundamental concepts related to optical and electrochemical recognition assays in which nanomaterials have been used and relevant MAMP sensing applications have been comprehensively covered. Challenges, opportunities and future outlooks of this field have also been discussed at the end.