Steve Unger scite author profile

The direct coupling of HPLC with NMR spectroscopy has been extended by splitting the HPLC eluent after conventional UV detection and sending part to a NMR spectrometer and part to an ion-trap mass spectrometer in a "triplehyphenated" HPLC-NMR-MS system. Combined UV, 1H NMR, and positive-ion electrospray MS detection was achieved in the continuous-flow mode using whole human urine from a subject dosed with acetaminophen. By means of HPLC-NMR-MS, the structural information available from the complementary spectroscopic techniques provided rapid confirmation of the identity of the acetaminophen glucuronide and sulfate metabolites, together with a number of endogenous metabolites. In particular, the HPLC-NMR-MS approach allowed the unequivocal identification of phenylacetylglutamine in human urine, an endogenous metabolite not previously observed in 1H NMR spectra of urine because of extensive overlap with resonances from other metabolites. The analytical advantages and complementarity of NMR and MS techniques in direct hyphenation with HPLC are discussed. The new technique of HPLC-NMR-MS will provide the scope for more comprehensive and fully automated analysis of biofluids and other complex mixtures than was previously available from single hyphenation of these instruments.

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Direct Plasma Sample Injection in Multiple-Component LC−MS−MS Assays for High-Throughput Pharmacokinetic Screening

Zeng

Qian

et al. 1999

Anal. Chem.

154

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The simultaneous dosing of numerous compounds followed by multiple-component analysis using LC-MS-MS (the N-in-1 approach) has significantly improved the throughput of the drug-screening process. However, plasma samples still need to be extracted before LC-MS-MS analysis, which frequently limits the throughput of the assay. In this work, a high-throughput on-line extraction technique has been developed for multiple-component LC-MS-MS assays using a high-flow column-switching technique. In N-in-1 LC-MS-MS assays, high sensitivity is required since the dose level is generally reduced to minimize drug-drug interactions. In addition, good chromatographic separation is essential to minimize interference and suppression effects. The direct plasma sample injection method developed in this work has successfully met the two requirements for multiple-component LC-MS-MS assays in high-throughput pharmacokinetic screening. Plasma samples containing a large number of potential drug candidates were directly injected onto an extraction column operated under a flow rate sufficiently high to exhibit a turbulent-flow profile. The extracted analytes were then eluted onto an analytical column via column switching for LC-MS-MS analysis. The use of turbulent flow resulted in a faster and more rugged extraction with reduced carryover compared with results obtained under laminar-flow conditions. Meanwhile, the use of a column-switching method maintained the chromatographic resolving power and high sensitivity of the LC-MS-MS assay. Separation efficiency, dynamic range, accuracy, and precision comparable with those of solid-phase extraction have been achieved with the turbulent-flow column-switching technique. As a result, this technique has been successfully and routinely used for high-throughput pharmacokinetic screening.

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Novel direct detection method for quantitative determination of intracellular nucleoside triphosphates using weak anion exchange liquid chromatography/tandem mass spectrometry

Shi

et al. 2002

Rapid Comm Mass Spectrometry

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A novel analytical method has been developed for direct quantification of intracellular nucleoside triphosphates (NTPs). Lysates of human peripheral blood mononuclear cells (PBMCs) were extracted by protein precipitation, and the filtered extracts were analyzed by weak anion exchange liquid chromatography (WAX-LC) coupled to detection by mass spectrometry (MS). Compared with ion pairing (IP)-LC/MS/MS, the only MS-compatible direct detection method for NTPs currently available, the new method completely avoids the usage of ion-pairing reagents and has a shorter analytical time of only 2 min. The method was validated and is being used to determine the amount of the triphosphate metabolite of D-D4FC (DPC817), an investigational HIV nucleoside reverse transcriptase inhibitor (NRTI), in human PBMC samples from clinical studies. By using a PE Sciex API 4000 triple quadrupole instrument operating in positive ion MRM mode, the method was able to achieve a lower limit of quantitation (LLOQ) of 5 fmol/10(6) cells in samples containing 3 x 10(6) lysed cells (6 fmol on-column). With minor adaptation, the method described here may be suitable for analyzing other NTPs. This paper also provides a discussion of the unique retention characteristics of WAX-LC, the principles of which may prove to be valuable for designing other forms of directly coupled ion-exchange (IX)-LC/MS methods suited for high sensitivity quantitative analysis.

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Structure determination of lysobactin, a macrocyclic peptide lactone antibiotic

Tymiak¹,

McCormick²,

Unger³

1989

J. Org. Chem.

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High‐speed gradient parallel liquid chromatography/tandem mass spectrometry with fully automated sample preparation for bioanalysis: 30 seconds per sample from plasma

Deng

Lloyd

et al. 2002

Rapid Comm Mass Spectrometry

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In this work, a high-throughput and high-performance bioanalytical system is described that is capable of extracting and analyzing 1152 plasma samples within 10 hours. A Zymark track robot system interfaced with a Tecan Genesis liquid handler was used for simultaneous solid-phase extraction of four 96-well plates in a fully automated fashion. The extracted plasma samples were injected onto four parallel monolithic columns for separation via a four-injector autosampler. The use of monolithic columns allowed for fast and well-resolved separations at a considerably higher flow rate without generating significant column backpressure. This resulted in a total chromatographic run cycle time of 2 min on each 4.6 x 100 mm column using gradient elution. The effluent from the four columns was directed to a triple quadrupole mass spectrometer equipped with an indexed four-probe electrospray ionization source (Micromass MUX interface). Hence, sample extraction, separation, and detection were all performed in a four-channel parallel format that resulted in an overall throughput of about 30 s per sample from plasma. The performance of this system was evaluated by extracting and by analyzing twelve 96-well plates (1152) of human plasma samples spiked with oxazepam at different concentrations. The relative standard deviation (RSD) of analyte sensitivity (slope of calibration curve) across the four channels and across the 12 plates was 5.2 and 6.8%, respectively. An average extraction recovery of 77.6% with a RSD of 7.7% and an average matrix effect of 0.95 with a RSD of 5.2% were achieved using these generic extraction and separation conditions. The good separation efficiency provided by this system allowed for rapid method development of an assay quantifying the drug candidate and its close structural analog metabolite. The method was cross-validated with a conventional liquid chromatography/tandem mass spectrometry (LC/MS/MS) assay.

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Steve Unger

Combined HPLC, NMR Spectroscopy, and Ion-Trap Mass Spectrometry with Application to the Detection and Characterization of Xenobiotic and Endogenous Metabolites in Human Urine

Direct Plasma Sample Injection in Multiple-Component LC−MS−MS Assays for High-Throughput Pharmacokinetic Screening

Novel direct detection method for quantitative determination of intracellular nucleoside triphosphates using weak anion exchange liquid chromatography/tandem mass spectrometry

Structure determination of lysobactin, a macrocyclic peptide lactone antibiotic

High‐speed gradient parallel liquid chromatography/tandem mass spectrometry with fully automated sample preparation for bioanalysis: 30 seconds per sample from plasma

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