The collection of whole blood samples on paper, known as dried blood spot (DBS), dates back to the early 1960s in newborn screening for inherited metabolic disorders. DBS off ers a number of advantages over conventional blood collection. As a less invasive sampling method, DBS off ers simpler sample collection and storage and easier transfer, with reduced infection risk of various pathogens, and requires a smaller blood volume. To date, DBS-LC-MS/MS has emerged as an important method for quantitative analysis of small molecules. Despite the increasing popularity of DBS-LC-MS/MS, the method has its limitations in assay sensitivity due to the small sample size. Sample quality is often a concern. Systematic assessment on the potential impact of various blood sample properties on accurate quantifi cation of analyte of interest is necessary. Whereas most analytes may be stable on DBS, unstable compounds present another challenge for DBS as enzyme inhibitors cannot be conveniently mixed during sample collection. Improvements on the chemistry of DBS card are desirable. In addition to capturing many representative DBS-LS-MS/MS applications, this review highlights some important aspects of developing and validating a rugged DBS-LC-MS/MS method for quantitative analysis of small molecules along with DBS sample collection, processing and storage.
The bioanalysis of plasma samples generated from in vivo studies of therapeutic proteins is of increasing interesting in the biopharmaceutical industry. The conventional ELISA approach has a long assay development time which can limit use in the early discovery and development of protein-based drugs. In this study, an LC-MS/MS bioassay was developed for the quantification of somatropin and a therapeutic human monoclonal antibody. The assay used bovine fetuin as an internal standard and a two-dimensional solid-phase extraction for the cleanup of the plasma digest. Sample extracts were resolved on an analytical size column using a 6 min LC gradient and analyzed using a triple-quadruple mass spectrometer. The linearity of the assay for somatropin was established from 1 to 1000 microg/mL with accuracy and precision within 15%. This LC-MS approach was also applied to a rat pharmacokinetic study of the therapeutic monoclonal antibody with a lower quantitation limit of 0.5 microg/mL. The LC-MS assay had improved accuracy and precision, and the results from analysis of in vivo study samples showed good agreement with the data obtained with an ELISA. The results from this study indicate that the LC-MS bioassay is a simple and feasible approach for the bioanalysis of therapeutic proteins to support in vivo studies during early drug discovery and development.
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