Interest on keratinized matrices analysis for clinical and forensic purposes has been recently grown due to the wide temporary detection window for psychotropic and toxic substances entrapped after repeated consumption. In this study, the first UHPLC-MS/MS screening method to quantify 119 molecules among most abused classic drugs and new psychoactive substances was developed and fully validated. An amount of 25 mg hair or nails samples, added with the internal standard mixture, were cut and incubated with 500 µL M3® buffer reagent at controlled temperature. After cooling, 1l supernatant was injected in the chromatographic system equipped with an Oasis HLB column. After the 10 min chromatographic separation through a gradient mobile phase (aqueous ammonium formate, phase A; acetonitrile, phase B), the target compounds were detected in multiple reaction monitoring mode. The method was linear (r 2 always better than 0.99) in a calibration range of 0.01-10 ng compound for mg hair and of 1-200 pg compound per mg nail. Recovery of analytes under investigation was always better than 75% and no significant ion suppression due to matrix effect was observed. Intra-assay and inter-assay precision and accuracy were always better than 15%. The applicability and trueness of the method were examined by analysing real samples of hair and nail from users of psychoactive drugs in recreational contexts. Both classic drugs and new psychoactive substances could be determined as result of repeated use and accumulation in keratin matrices
Background: Synthetic cathinones (SCs) are designer analogs of the natural active principle of khat. Since their appearance on the black market in 2003, their popularity has increased annually, and they have become the most seized class of new psychoactive substances reported to the UNODC Early Warning Advisory system. The constant introduction of newly synthesized molecules makes this issue difficult to monitor. The authors reviewed the most recent SC-related fatalities worldwide to highlight new trends of consumption, reporting acute pharmacological and toxicological symptoms, scene investigations, analytical methods, and reported SC concentrations in diverse biological matrices. Methods: A literature search was performed using scientific databases such as PubMed, Scopus, Science Direct, Web of Science, and Research Gate to identify relevant scientific publications from 2017 to 2020. In addition, a search was conducted through the EU EWS. Results: From 2017 to 2020, 31 different SCs were identified in 75 reported fatal intoxications in the literature, alone or in combination with other substances. The most abused SCs were N-ethylpentylone, N-ethylhexedrone, and 4-chloromethcathinone. The EU EWS included less detail on 72 additional SC-related fatalities from 2017 to 2020. Conclusions: New SCs continuously replace older natural and synthetic stimulant drugs, making determining the cause of death difficult. Analytical methods and high-performance mass spectrometry instruments are essential to detect the low concentrations of these potent new SCs. Little data are available on the pharmacology of these new drugs; the evaluation of toxicological antemortem and postmortem findings provides critical data on the drug's pharmacology and toxicology and for the interpretation of new SC cases.
Background: The prevalence of drug use during pregnancy continues to increase despite the associated serious adverse obstetrical outcomes, including increased risk of miscarriage, fetal growth restriction, brain development impairment, neonatal abstinence syndrome, preterm delivery, and stillbirths. Monitoring drug use during pregnancy is crucial to limit prenatal exposure and provide suitable obstetrical health care. The authors reviewed published literature reporting the concentrations of common drugs of abuse and new psychoactive substances (NPS), such as synthetic cathinones and synthetic opioids, NPS, and their metabolites using unconventional matrices to identify drug use during pregnancy and improve data interpretation. Methods: A literature search was performed from 2010 to July 2019 using PubMed, Scopus, Web of Science scientific databases, and reports from international institutions to review recently published articles on heroin, cocaine, amphetamine, methamphetamine, synthetic cathinone, and synthetic opioid monitoring during pregnancy. Results: Meconium has been tested for decades to document prenatal exposure to drugs, but data regarding drug concentrations in amniotic fluid, the placenta, the umbilical cord, and neonatal hair are still lacking. Data on prenatal exposure to NPS are limited. Conclusions: Maternal hair testing is the most sensitive alternative matrix for identifying drug use during pregnancy, while drug concentrations in the meconium, placenta, and umbilical cord offer the identification of prenatal drug exposure at birth. Adverse developmental outcomes for the infant make it critical to promptly identify maternal drug use to limit fetal exposure or, if determined at birth, to provide resources to the exposed child and family. Alternative matrices offer choices for monitoring and challenge laboratories to deliver highly sensitive and specific analytical methods for detection.
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