There is a continuing need for increased throughput in the evaluation of new drug entities in terms of their pharmacokinetic parameters. One useful parameter that can be measured in vitro using liver microsomal preparations is metabolic stability. In this report, we describe an automated system that can be used for unattended quantitative analysis of liver microsomal samples for a series of compounds. This system is based on the Sciex API 150 (single quadrupole) liquid chromatography/mass spectrometry system and utilizes 96-well plate autosampler technology as well as a custom-designed AppleScript which executes the on-line data processing and report generation. It has the capability of analyzing at least 75 compounds per week or 300 compounds per month in an automated fashion.
For higher throughput screening, where the number of new chemical entities (NCEs) to test is rapidly increasing, fast sample turnaround time is essential. In order to increase efficiency a generic high-performance liquid chromatography/tandem mass spectrometry (HPLC/MS/MS) method, with a cycle time of 85 s (42 injections/h), was created. This was accomplished through the use of a 1-min ballistic gradient and the optimization of the autosampler. The gradient was optimized by varying the organic mobile phase concentration and examining its ballistic characteristics with respect to matrix ion suppression and compound retention time. The autosampler time could be reduced by optimizing several parameters and by determining the source of most of the carryover in order to reduce the number of syringe and injector washes. Finally, the reliability of the new generic method is demonstrated by comparison of sample data with a standard 2-min linear gradient method that showed that the data sets were well correlated. For plasma AUC (ng.h/mL) of 28 NCEs, the regression line had a slope of 0.92 and the R2 was 0.929. The described method was found to be useful for both rat plasma and tissue samples.
There is a continuing need for increased throughput in the evaluation of new drug entities in terms of their pharmacokinetic (PK) parameters. This report describes an alternative procedure for increasing the throughput of plasma samples assayed in one overnight analysis: the use of parallel high performance liquid chromatography (HPLC) combined with tandem mass spectrometry (parallel LC/MS/MS). For this work, two HPLC systems were linked so that their combined effluent flowed into one tandem MS system. The parallel HPLC/APCI-MS/MS system consisted of two Waters 2690 Alliance systems (each one included an HPLC pump and an autosampler) and one Finnigan TSQ 7000 triple quadrupole mass spectrometer. Therefore, the simultaneous chromatographic separation of the plasma samples was carried out in parallel on two HPLC systems. The MS data system was able to deconvolute the data to calculate the results for the samples. Using this system, 20 compounds were tested in one overnight assay using the rapid rat PK screening model which includes a total of 10 standards plus samples and two solvent blanks per compound tested. This application provides an additional means of increasing throughput in the drug discovery PK assay arena; using this approach a two-fold increase in throughput can be achieved in the assay part of the drug discovery rat PK screening step.
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