High-Throughput Monitoring of Cocaine and Its Metabolites in Hair Using Microarrays for Mass Spectrometry and Matrix-Assisted Laser Desorption/Ionization-Tandem Mass Spectrometry.

Because of inhomogeneous matrix-assisted laser desorption/ionization (MALDI) matrix crystallization and laser shot-to-shot variability, quantitation is not generally performed by MALDI mass spectrometry. Here we introduce a high-throughput MALDI method using an innovative high-density microarray for mass spectrometry (MAMS) technology, which allows semiquantitative measurement of cocaine and its metabolites, benzoylecgonine, cocaethylene, and ecgonine methyl ester. A MAMS slide containing lanes of hydrophilic spots and an automated slider to drag a sample droplet over several small spots can accomplish automatic sample aliquoting and lead to homogeneous crystallization of the matrix-analyte mixture and, thus, to a reproducible signal (average RSD 6%). Four hair samples of self-reported drug users were analyzed in parallel by MALDI-MS/MS and by a validated LC-MS/MS method. The consumption profiles as well as the metabolite-parent drug ratios obtained correlated well, confirming the effectiveness of the MALDI-MS/MS method to establish a calendar of consumption in only 1 mg of hair. The analysis time for 10 hair samples is below 40 min, with 12 replicates per sample. Since only 3 μL of a 20 μL extract is analyzed, complementary assays are possible, such as the detection of additional drugs. The semiquantitative MALDI method worked well with only a small amount of hair and gave results in less than 4 min per sample, including replicates. This was made possible by the use of MAMS slides for sample preparation, which thus present significant advantages over traditional methods in cases where results are required urgently or if samples are scarce.