Internal standard tracked dilution to overcome challenges in dried blood spots and robotic sample preparation for liquid chromatography/tandem mass spectrometry assays.

Dried blood spot (DBS) technology is an emerging alternative for sample collection in bioanalysis. Dilution for DBS samples is a challenge due to its solid sample format. Currently, DBS samples requiring dilution were first extracted as regular samples and then diluted with extracted blank samples containing internal standard (IS). Since the dilution step is a volume-critical step, extra care has to be taken to achieve accurate dilution when dealing with limited volume extracted samples. Here, we introduce an alternative sample dilution for liquid chromatography/tandem mass spectrometry (LC/MS/MS) assays using IS to track the dilution step. Dilution factor-adjusted IS working solution was first added to the sample requiring dilution before sample processing; subsequently, the processed sample was approximately diluted into the assay linear response range before LC/MS/MS analysis. We define this approach as "IS-tracked dilution". The advantage of this approach is that the diluting step is tracked by the IS and is no longer a volume-critical step. Another recognized challenge related to sample dilution is automatic sample dilution using a liquid handler. This "IS-tracked dilution" may also help address some of the challenges for automatic sample dilution of liquid samples. This new dilution approach was proven to be effective and convenient in both plasma assays and DBS assays using omeprazole as a probe compound.

Evaluating and defining sample preparation procedures for DBS LC-MS/MS assays.

BACKGROUND: A defined approach to develop and validate an LC-MS/MS assay using dried blood spot (DBS) samples is of great interest to many scientists who are adopting this technology. We have evaluated three distinct sample preparation procedures of DBS samples for LC-MS/MS assay development. RESULTS: A new term 'elution efficiency' is introduced to evaluate the effectiveness of eluting compounds from the DBS cards into the liquid phase. Three different types of DBS cards were studied as part of the sample preparation procedures. A DBS LC-MS/MS method was developed, qualified and then applied to a toxicokinetics study. CONCLUSION: Organic extraction and protein precipitation resulted in significant ion suppression and/or enhancement for FTA(®) Classic or FTA(®) Elute cards. Liquid-liquid extraction produced the least ion suppression/enhancement. Both protein precipitation and liquid-liquid extraction effectively eluted the probe compound from the DBS cards under the conditions tested. However, organic extraction by pure solvents resulted in low elution efficiency.

Strategy of accelerated method development for high-throughput bioanalytical assays using ultra high-performance liquid chromatography coupled with mass spectrometry.

Here we report a strategy for rapid method development of high-throughput bioanalytical assays using ultra high-performance liquid chromatography coupled with tandem mass spectrometry (uHPLC-MS/MS). First, a data set was established for the removal of representative phospholipids under different sample treatments to guide subsequent method development for various compounds. The recovery information of the analyte(s) of interest under different extraction conditions was then obtained during method development. With the recovery profiles and the pre-established knowledge of phospholipids removal in place, an optimal extraction condition was identified to give not only a satisfactory recovery but also a good cleanup of the sample. A rapid LC or uHPLC method was developed without the need of extensive column wash after the elution of the analyte. This strategy was demonstrated through the method development of a uHPLC-MS/MS bioanalytical assay for the quantitation of ketoconazole in human plasma with liquid-liquid extraction using a hexane and ethyl acetate solvent system. The retention time for ketoconazole through an isocratic elution was 18 s. Good accuracy and precision were obtained. Assay ruggedness was demonstrated by consistent internal standard responses and retention time for 500 sequential injections. In addition, consistent results were obtained for incurred sample reanalysis.

Pharmacokinetics and effects of aminorex in horses.

OBJECTIVE: To investigate the pharmacokinetics and behavioral effects of aminorex administered IV and PO in horses. ANIMALS: 7 Thoroughbreds. PROCEDURES: In a cross-over design, aminorex (0.03 mg/kg) was administered IV or PO. Plasma and urinary aminorex concentrations were determined via liquid chromatography- mass spectrometry. RESULTS: Decrease of aminorex from plasma following IV administration was described by a 3-compartment pharmacokinetic model. Median (range) values of alpha, beta, and gamma half-lives were 0.04 (0.01 to 0.28), 2.30 (1.23 to 3.09), and 18.82 (8.13 to 46.64) hours, respectively. Total body and renal clearance, the area under the plasma time curve, and initial volume of distribution were 37.26 (28.61 to 56.24) mL x min/kg, 1.25 (0.85 to 2.05) mL x min/kg, 13.39 (8.82 to 17.37) ng x h/mL, and 1.44 (0.10 to 3.64) L/kg, respectively. Oral administration was described by a 2-compartment model with first-order absorption, elimination from the central compartment, and distribution into peripheral compartments. The absorption half-life was 0.29 (0.12 to 1.07) hours, whereas the beta and gamma elimination phases were 1.93 (1.01 to 3.17) and 23.57 (15.16 to 47.45) hours, respectively. The area under the curve for PO administration was 10.38 (4.85 to 13.40) ng.h/mL and the fractional absorption was 81.8% (33.8% to 86.9%). CONCLUSIONS AND CLINICAL RELEVANCE: Aminorex administered IV had a large volume of distribution, initial rapid decrease, and an extended terminal elimination. Following PO administration, there was rapid absorption, rapid initial decrease, and an extended terminal elimination. At a dose of 0.03 mg/kg, the only effects detected were transient and central in origin and were observed only following IV administration.