Leslie Romanyshyn scite author profile

In the analysis of biological samples it is important to reduce the risk of interferences from the matrix itself, other analytes, the dosing vehicle (commonly PEG), and from the MS/MS transitions used for the analysis. Rapid analysis is essential for drug discovery, and even though the requirements for separation may be minimized for speed, the integrity of the analysis is still dependent on the separation. This paper focuses on the potential for interferences from various endogenous and exogenous matrix components commonly encountered in quantitation of analytes and their metabolites from biological matrices. We demonstrate that neither high organic isocratic nor ballistic gradient ultra-fast HPLC show a clearly defined advantage in regards to complex biological matrices. The critical factor in the resolution of matrix interferences still remains in sample preparation.

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Fast LC/MS in the analysis of small molecules

Tiller

Romanyshyn

Neue

2003

Analytical and Bioanalytical Chemistry

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Liquid chromatography-mass spectrometry (LC/MS) has become one of the most widely used analytical techniques in both qualitative and quantitative analysis of small molecules. Recently, with the increasing demand for ever-higher sample throughput, the use of faster chromatographic separations has become popular, along with other LC/MS methods that decrease analytical cycle-time. The burgeoning use of LC/MS has meant that the primary expertise of many practitioners today is not in the field of LC/MS, which has been facilitated by the ease-of-use of modern LC/MS systems. An examination of the current state of the literature, relating to "fast LC/MS", should serve well to those new to LC/MS, and should help them in the development of fast LC/MS methods that are effective in terms of both the chromatography and the utilization of the mass spectrometer. This review paper focuses on fast LC/MS analyses of small molecules that have been reported in peer-reviewed publications.

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Ultra‐fast gradient vs. fast isocratic chromatography in bioanalytical quantification by liquid chromatography/tandem mass spectrometry

Romanyshyn

Tiller

Alvaro

et al. 2001

Rapid Comm Mass Spectrometry

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Liquid chromatography/tandem mass spectrometry (LC/MS/MS) methods developed for quantification using rapid ('ballistic') gradients on narrow bore, short HPLC columns have been previously described by this laboratory. This paper compares the fast gradient approach with the more traditional high-organic isocratic LC/MS/MS methods. The comparison is based on an analysis of the effectiveness of the chromatographic separations when using the two approaches (i.e. k', N, and W). The data presented herein are derived from actual biological samples analyzed as part of the drug discovery process.

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Bioanalytical applications of ?fast chromatography? to high-throughput liquid chromatography/tandem mass spectrometric quantitation

Romanyshyn

Tiller

Hop

2000

Rapid Commun. Mass Spectrom.

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Liquid chromatography/tandem mass spectrometric quantification with metabolite screening as a strategy to enhance the early drug discovery process

Tiller

Romanyshyn

2002

Rapid Comm Mass Spectrometry

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Throughput for early discovery drug metabolism studies can be increased with the concomitant acquisition of metabolite screening information and quantitative analysis using ultra-fast gradient chromatographic methods. Typical ultra-fast high-performance liquid chromatography (HPLC) parameters used during early discovery pharmacokinetic (PK) studies, for example, employ full-linear gradients over 1-2 min at very high flow rates (1.5-2 mL/min) on very short HPLC columns (2 x 20 mm). These conditions increase sample throughput by reducing analytical run time without sacrificing chromatographic integrity and may be used to analyze samples generated from a variety of in vitro and in vivo studies. This approach allows acquisition of more information about a lead candidate while maintaining rapid analytical turn-around time. Some examples of this approach are discussed in further detail.

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