Abstract
Broad-spectrum drug screening is offered by many clinical laboratories to support investigation of possible drug exposures. The traditional broad-spectrum drug screen employed at our laboratory utilizes several different analytical platforms, thus requiring relatively high volumes of sample and a cumbersome workflow. Here we describe the development and validation of a consolidated broad-spectrum drug screen assay designed to qualitatively detect 127 compounds in urine (Ur) and serum/plasma (S/P) samples. An LC-MS/MS method was developed using the Ultivo LC-MS/MS and designed to be qualitative with a 1-point calibration curve and 50% to 150% controls. Sample preparation included the addition of 122 internal standards (IS) followed by mixed-mode strong cation exchange solid-phase extraction and reverse-phase chromatographic separation on a biphenyl column. For the method described herein, ≥ 95% of analytes in urine and serum control samples had a CV of ≤20% for total imprecision. Accuracy testing included 46 external controls and demonstrated 99.9% accuracy. Method comparison studies to quantitative testing are discussed. The high level of coverage of the analytes with a stable isotope-labeled IS (SIL-IS) helped normalize for matrix effects when significant ion suppression (>25%) was present. Analyte stability in the matrix, the impact of potentially interfering compounds, and method ruggedness were demonstrated. Method limitations include limited detection of glucuronidated drugs and potential cross-contamination with samples at very high concentrations (>>100 × cutoff). The broad-spectrum drug screen method developed here qualitatively detected 127 drugs and select metabolites. This method could be used to support investigations of possible drug exposures in a clinical setting.
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