期刊
ANALYTICAL CHEMISTRY
卷 89, 期 16, 页码 8421-8428出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.analchem.7b01877
关键词
-
资金
- Natural Sciences and Engineering Research Council (NSERC) of Canada through an Industrial Research Chair program
Most contemporary methods of screening and quantitating controlled substances and therapeutic drugs in biofluids typically require laborious, time-consuming, and expensive analytical workflows. In recent years, our group has worked toward developing microextraction (mu e)-mass spectrometry (MS) technologies that merge all of the tedious steps of the classical methods into a simple, efficient, and low-cost methodology. Unquestionably, the automation of these technologies allows for faster sample throughput, greater reproducibility, and radically reduced analysis times. Coated blade spray (CBS) is a mu e technology engineered for extracting/enriching analytes of interest in complex matrices, and it can be directly coupled with MS instruments to achieve efficient screening and quantitative analysis. In this study, we introduced CBS as a technology that can be arranged to perform either rapid diagnostics (single-vial) or the high-throughput (96-well plate) analysis of biofluids. Furthermore, we demonstrate that performing 96-CBS extractions at the same time allows the total analysis time to be reduced to less than SS s per sample. Aiming to validate the versatility of CBS, substances comprising a broad range of molecular weights, moieties, protein binding, and polarities were selected. Thus, the high-throughput (HT)-CBS technology was used for the concomitant quantitation of 18 compounds (mixture of anabolics, beta-2 agonists, diuretics, stimulants, narcotics, and beta-blockers) spiked in human urine and plasma samples. Excellent precision (similar to 2.5%), accuracy (>= 90%), and linearity (R-2 >= 0.99) were attained for all the studied compounds, and the limits of quantitation (LOQs) were within the range of 0.1 to 10 ng.mL(-1) for plasma and 0.25 to 10 ng.mL(-1) for urine. The results reported in this paper confirm CBS's great potential for achieving subsixty-second analyses of target compounds in a broad range of fields such as those related to clinical diagnosis, food, the environment, and forensics.
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