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  • Title: Teaching a New Dog Old Tricks: Ultrafast Liquid Chromatography/Tandem-Mass Spectrometry Analysis of Nine ß-Lactam Antibiotics for Improved Therapeutic Drug Monitoring.
    Author: Hodgkins C, Cordwell SJ, Kocic D.
    Journal: Ther Drug Monit; 2022 Dec 01; 44(6):777-783. PubMed ID: 36372935.
    Abstract:
    BACKGROUND: Therapeutic drug monitoring (TDM) of β-lactam antibiotics provides critical knowledge in hospital intensive care unit environments to support dosing within the narrow window between therapeutic failure and toxicity. Liquid chromatography-tandem mass spectrometry (LC-MS/MS) is the most suitable analytical technique for these drugs; however, clinicians, patients, and laboratories would benefit from shortening the timeframe between the collection of samples and reporting of results. METHODS: The authors developed a very rapid LC-MS/MS method for 9 β-lactam antimicrobial drugs on a commercial core-shell reverse-phase LC column by exploiting the performance of such stationary phase materials at a high mobile-phase linear velocity and using a simple flow split to optimize ionization conditions in the mass spectrometer ion source. The method's performance was assessed using a currently validated routine LC-MS/MS assay performed on the same instrument. RESULTS: Routine ß-lactam assays were reduced from >6 minutes per sample to less than 2 minutes with improved chromatographic resolution, while still maintaining acceptable analytical performance (average correlation coefficient: 0.99670, interday imprecision: 2.0%-10.8%, and bias: -1.68%), hence generating results in agreement with an existing validated method for patient and quality assurance program samples. CONCLUSIONS: Time-critical results, such as those for β-lactam antimicrobials, may be reported by the TDM laboratory several hours earlier than current methods allow, providing improved patient care and generating capacity on LC-MS/MS instruments for larger batch sizes and/or additional assays. The simple-to-implement technique demonstrated in this study may be applicable to other TDM assays or any LC-MS/MS method where faster turnaround times are desirable.
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