Isomeric separation of cannabinoids by UPLC combined with ionic mobility mass spectrometry (TWIM-MS) Part I

The Cannabis sativa L. plant is rich in a wide variety of cannabinoids. Delta(9) -tetrahydrocannabinol (Delta(9)-THC) is the main chemical compound responsible for its psychoactive effect, and it can be identified as [M+H](+) and [M-H](-) ions at m/z 315 and 313, respectively, where M = C21H30O2. However, six other isomeric or isobaric forms of Delta(9)-THC can exist, which makes its unequivocal characterization a challenge. In this work, ultra-high liquid chromatography coupled to traveling wave ion mobility mass spectrometry (UPLC-TWIM-MS) were applied to both electrospray ionization modes (ESI(+)) and used to analyze hashish, marijuana, and parts of the Cannabis Sativa L plant (flower and leaf). The presence of a complex isomeric mixture of cannabinoids has been identified, and the mixture mainly contains Delta(9)-THC, cannabidiol (CBN-C-5 and M-w =310 Da), Delta(9)-tetrahydrocannabinolic acid A and B (Delta(9)-THCA-C-5 A/B and Mw =358 Da) and their isomers. Three isomers of the ions were identified at m/z315/313, 311, and 357 by using direct infusion ESI-TWIM-MStechnique, while higher selectivity was observed in UPLC-ESI-TWIM-MS data, with the maximum isomeric separation between four and five compounds achieved when using single-ion mode (SIM) acquisition. The ions at m/z 311/309, 315/313, 345, and 357 correspond to wCBN05, Delta(9)-THC, cannabielsioc acid, Delta(9)-THCA-C-5 and their isomers, respectively, and they were the main species found. The calculations of collision cross sections were reported for all isomers of cannabinoids and associated with TWIM-MS results. 2016 Elsevier B.V. All rights reserved.