Matrix-assisted ionization (MAI) mass spectrometry (MS) is a simple and sensitive method for analysis of low- and high-mass compounds, requiring only that the analyte in a suitable matrix be exposed to the inlet aperture of an atmospheric pressure ionization mass spectrometer. Here, we evaluate the reproducibility of MAI and its potential for quantification using six drug standards. Factors influencing reproducibility include the matrix compound used, temperature, and the method of sample introduction. The relative standard deviation (RSD) using MAI for a mixture of morphine, codeine, oxymorphone, oxycodone, clozapine, and buspirone and their deuterated internal standards using the matrix 3-nitrobenzonitrile is less than 10% with either a Waters SYNAPT G2 or a Thermo LTQ Velos mass spectrometer. The RSD values obtained using MAI are comparable to those using ESI or MALDI on these instruments. The day-to-day reproducibility of MAI determined for five consecutive days with internal standards was better than 20% using manual sample introduction. The reproducibility improved to better than 5% using a mechanically assisted sample introduction method. Hydrocodone, present in a sample of undiluted infant urine, was quantified with MAI using the standard addition method.
Matrix-assisted ionization (MAI)-mass spectrometry (MS) eliminates the need for high voltage, a heat source, lasers, and compressed gases in the ionization process and uses minimal solvents in sample preparation, thus making MAI ideal for field-portable mass spectrometers. The broad applicability of MAI is demonstrated by simple, rapid, and robust positive and negative detection mode analyses of low and high mass compounds including some pesticides, dyes, drugs, lipids, and proteins (186 Da to 8.5 kDa) from various materials including urine, biological tissue sections, paper, and plant material on a low pumping capacity, single-quadrupole mass spectrometer. Different sample introduction methods are applicable, including the use of a pipet tip or glass melting point tube, allowing integration of sample preparation with sample introduction for increased analytical utility and ease of operation, even when sampling directly from surfaces.
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