Determination of small drug molecules by capillary electrophoresis-atmospheric pressure ionization mass spectrometry

Abstract

Capillary electrophoresis (CE) separations are reported for sulfonamides and benzodiazepines in an uncoated fused-silica capillary. The capillary column exit was connected to a liquid junction-ion spray interface combination coupled to an atmospheric pressure ionization (API) triple quadrupole mass spectrometric (MS) system. On-line UV detection occurred 20 cm from the inlet of the capillary and with the API mass spectrometer (CE-API-MS) after the entire length of the capillary (100 cm). The separations were made using volatile buffers composed of ammonium acetate (15–20 m M) with 15–20% of methanol to facilitate ionization under electrospray conditions. This study showed that the major metabolite of flurazepam in man, N-1-hydroxyethylflurazepam, could be detected and characterized in human urine by CE-UV-MS following the administration of a single oral dose of 30 mg of flurazepam dihydrochloride. The presence of additional flurazepam metabolites in human urine was observed by using the system, suggesting that a combination of UV with MS detection should be useful for metabolic studies. In addition to molecular weight determination of compounds, structural information may be obtained by utilizing on-line tandem mass spectrometry (CE-UV-MS-MS). This was demonstrated for sulfamethazine where the protonated molecule species was transmitted into the collision cell of the tandem triple quadrupole mass spectrometer. Collision-induced dissociation of the protonated sulfamethazine molecule yielded structural information characteristic of the sulfa drug following the on-column injection of 2 pmol of sulfamethazine.