Differentiation of ring-substituted bromoamphetamine analogs by gas chromatography-tandem mass spectrometry.

There has been a rapid increase over the last decade in the appearance of new non-controlled psychoactive substances. Minor changes in the chemical structures of these compounds, such as the extension of an alkyl residue or replacement of a single substituent, are regularly made to avoid regulatory control, leading to the manufacture of many new potentially dangerous drugs. Bromoamphetamine analogs (bromoamphetamine [Br-AP] and bromomethamphetamine (Br-MA]) are ring-substituted amphetamines that can behave as stimulants, as well as exhibiting inhibitory activity towards monoamine oxidases in the same way as amphetamines. Gas chromatography-tandem mass spectrometry (GC-MS-MS) was used in this study to differentiate ring-substituted bromoamphetamine analogs. Free bases, trifluoroacetyl derivatives, and trimethylsilyl (TMS) derivatives of six analytes were successfully separated using DB-1ms and DB-5ms columns. Electron ionization MS-MS analysis of the TMS derivatives allowed for the differentiation of three regioisomers. TMS derivatives of 2-positional isomers provided significant product ions. The spectral patterns of 3- and 4-positional isomers were different. Chemical ionization MS-MS analysis of free bases for [M+H-HBr] ions at 134 and 148 allowed for differentiation of the regioisomers. The spectra of 2-positional isomers contained characteristic product ions formed by dehydrogenation at 132 and 146 for 2Br-AP and 2Br-MA, respectively. The spectra of 3-positional isomers contained α-cleaved iminium cations as the base peaks. The spectra of 4-positional isomers showed a tropylium cation at 91 as the base peak. These results demonstrate that GC-MS-MS can be used for the differentiation of regioisomeric Br-AP analogs in forensic practice.