Michael Schmeling scite author profile

Background Clinical LC-MS/MS assays traditionally require that samples be run in batches with calibration curves in each batch. This approach is inefficient and presents a barrier to random access analysis. We developed an alternative approach called multipoint internal calibration (MPIC) that eliminated the need for batch-mode analysis. Methods The new approach used 4 variants of 13C-labeled methotrexate (0.026–10.3 µM) as an internal calibration curve within each sample. One site carried out a comprehensive validation, which included an evaluation of interferences and matrix effects, lower limit of quantification (LLOQ), and 20-day precision. Three sites evaluated assay precision and linearity. MPIC was also compared with traditional LC-MS/MS and an immunoassay. Results Recovery of spiked analyte was 93%–102%. The LLOQ was validated to be 0.017 µM. Total variability, determined in a 20-day experiment, was 11.5%CV. In a 5-day variability study performed at each site, total imprecision was 3.4 to 16.8%CV. Linearity was validated throughout the calibrator range (r2 > 0.995, slopes = 0.996–1.01). In comparing 40 samples run in each laboratory, the median interlaboratory imprecision was 6.55%CV. MPIC quantification was comparable to both traditional LC-MS/MS and immunoassay (r2 = 0.96–0.98, slopes = 1.04–1.06). Bland-Altman analysis of all comparisons showed biases rarely exceeding 20% when MTX concentrations were >0.4 µM. Conclusion The MPIC method for serum methotrexate quantification was validated in a multisite proof-of-concept study and represents a big step toward random-access LC-MS/MS analysis, which could change the paradigm of mass spectrometry in the clinical laboratory.

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Design and implementation of software for automated quality control and data analysis for a complex LC/MS/MS assay for urine opiates and metabolites

Dickerson

Schmeling

Hoofnagle

et al. 2013

Clinica Chimica Acta

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Lot-to-Lot Variations in a Qualitative Lateral-Flow Immunoassay for Chronic Pain Drug Monitoring

Hayden¹,

Schmeling²,

Hoofnagle

2014

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Using mass spectrometry to overcome the longstanding inaccuracy of a commercially-available clinical testosterone immunoassay

Shi

Bird

Schmeling

et al. 2021

Journal of Chromatography B

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