Forensic toxicology
January 1, 2017
Luciano Chaves Arantes, Ettore Ferrari Júnior, Luciano Figueiredo De Souza et al.
50 citations
A new potent serotonin 5-HT2A receptor agonist, 25I-NBOH, was identified in blotter papers by several state-level forensic laboratories in Brazil. The molecule is labile and fragments into 2C-I during routine GC screening, requiring GC-MS, LC-QTOF-MS, FTIR, and NMR for full characterization. Individual doses range from 300 to 1000 μg. Although it is a potent 5-HT2A receptor agonist, 25I-NBOH is not registered with the UNODC and is controlled only in Sweden and Brazil. This is the first scientific report of 25I-NBOH identification in actual seizures.
Analytical methods : advancing methods and applications
November 14, 2024
Anne Alves Macedo, Dilton Martins Pimentel, Larissa Magalhães de Almeida Melo et al.
6 citations
Discarded screen-printed electrodes can be recoated with a graphite and chitosan mixture to create a reusable sensor for detecting the recreational drug 2C-B in oral fluid and seized samples. The sensor, called SPE-Gr/CTS, detects 2C-B electrochemically with a linear range from 0.05 to 7.5 μmol L⁻¹ and a detection limit of 0.015 μmol L⁻¹. Responses are stable across different electrodes, with relative standard deviation below 5.0%. The method is selective for 2C-B even when seventeen other illicit drugs or adulterants are present. Real seized and oral fluid samples were analyzed, and results matched those from LC-MS. The device offers a rapid, portable, and environmentally friendly screening tool for forensic analysis, using only 50 μL of sample.
ACS omega
April 29, 2025
Cláudia Mancilha Rocha, Larissa Magalhães de Almeida Melo, Augusto César Carvalho Santos et al.
5 citations
A new screening method combining a color change and an electrochemical signal can identify LSD and related drugs (NBOHs, NBOMes, 2Cs) on blotter papers. The method uses Emerson's reagent to produce a color change and a voltammetric measurement on a graphite electrode to detect the drugs. It provides three distinct responses for NBOHs, allowing unambiguous identification, and can distinguish between different drug types. The technique is stable (less than 2.3% variability), sensitive (detection limit of 0.3 μg per mL), and works across a wide concentration range (10 to 1000 μg per mL). When tested on 33 real seized samples, the results matched those from standard confirmatory methods, offering a simple and fast tool for forensic screening.