Direct detection of large fat-soluble biomolecules in solution using membrane inlet mass spectrometry and desorption chemical ionization

This paper presents the first membrane inlet mass spectrometry system capable of detecting large biomolecules, such as testosterone (M<SUB>r</SUB> 288), testosterone acetate (M<SUB>r</SUB> 330) and α-tocopherol (M<SUB>r</SUB> 430, vitamin E). The result was obtained using a home-made chemical ionization ion source with a thermostated tubular silicone membrane mounted right in the centre of a methane CI plasma. The liquid sample was flushed through the inside of the membrane for a period of 20–25 min, where the analyte diffused into the membrane. Following this trapping period the analyte was released from the membrane into the mass spectrometer by the combined action of heat radiation from the filament and charge transfer from the chemical ionization plasma. As a result of this stimulated desorption a good desorption peak was obtained as the analyte vaporized out of the membrane. Retinol (M<SUB>r</SUB> 286, vitamin A), cholecalciferol (M<SUB>r</SUB> 384, vitamin D<SUB>3</SUB>) and cholesterol (M<SUB>r</SUB> 386) were also detected. However, these compounds (all containing a long hydrocarbon chain and being aliphatic alcohols) did not give a protonated molecule. They gave a series of cluster ions with the dominant located 20 mass units below the molecular ion. The detection limits of the new desorption chemical ionization MIMS technique were at low or sub-micromolar concentrations (high ppb levels) and the reproducibility was within 20%, when the area of the desorption peak was used for quantitation.