Arkady I. Gusev scite author profile

This review focuses on the application of matrix assisted laser desorption/ionization (MALDI) mass spectrometry to the characterization of molecules in the low mass range (<1500 Da). Despite its reputation to the contrary, MALDI is a powerful technique to provide both qualitative and quantitative determination of low molecular weight compounds. Several approaches to minimize interference via sample preparation and matrix selection are discussed, as well as coupling of MALDI to liquid and planar chromatographic techniques to extend its range of applicability.

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Improvement of signal reproducibility and matrix/comatrix effects in MALDI analysis

Gusev¹,

Wilkinson²,

Proctor³

et al. 1995

Anal. Chem.

236

224

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Effect of liquid chromatography separation of complex matrices on liquid chromatography–tandem mass spectrometry signal suppression

Choi

Hercules

Gusev³

2001

Journal of Chromatography A

163

108

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Quantitative Measurement of Cyclosporin A in Blood by Time-of-Flight Mass Spectrometry

Muddiman

Gusev²,

Proctor³

et al. 1994

Anal. Chem.

100

106

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Analytical methods have been developed for the detection and quantification of cyclosporin A (CsA) in blood using time-of-flight secondary-ion mass spectrometry (TOF-SIMS) and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI/TOF-MS). Linear calibration curves were obtained for both methods in the range 25-2000 ng/mL in whole blood. The limit of detection (LOD) and limit of quantification (LOQ) were determined to be 7 and 23 ng/mL, respectively, for the TOF-SIMS method; the LOD and LOQ were 10 and 33 ng/mL, respectively, for the MALDI/TOF-MS method. Coefficients of variation ranged from 3 to 5% for the TOF-SIMS method and from 4 to 8% for the MALDI/TOF-MS method. Blood samples were also analyzed by a nonspecific method, fluorescence polarization immunoassay (FPIA), and by a specific method, high-performance liquid chromatography (HPLC). The TOF-MS results are in good agreement with the HPLC results, but not with the FPIA results. The TOF-MS methods can also provide information about CsA metabolites.

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Application of the fast‐evaporation sample preparation method for improving quantification of angiotensin II by matrix‐assisted laser desorption/ionization

Nicola

Gusev

Proctor

et al. 1995

Rapid Comm Mass Spectrometry

107

105

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The fast-evaporation method of sample preparation has been applied for quantitative analysis using matrix-assisted laser desorption/ionization (MALDI) mass spectrometry. An instrumental protocol focusing on improvement of shot-to-shot repeatability and compensation for signal degradation has been developed for quantification of angiotensin II using the fast-evaporation technique and an internal standard. The fast-evaporation method was compared to the standard method of sample preparation (using a multicomponent matrix) in the quantitative analysis of angiotensin II, and found to be superior in several respects. Improvement in sample homogeneity using the fast-evaporation method enhanced both point-to-point repeatibility and sample-to-sample reproducibility. The relative standard deviations of the analyte/internal standard ratios (point RSD) were decreased by a factor of three compared to those obtained using the multicomponent matrix method. The average point RSD was found to be ca. 5% for the fast-evaporation technique. Two internal standards were evaluated for quantification of angiotensin II. The better one, 1-SAR-8-Ile angiotensin II, yielded a relative standard deviation of the standard curve slope of ca. 2.2% over two orders of magnitude of concentration (45 nM to 3000 nM), an improvement by a factor of two over the standard preparation method. Renal microdialysate samples, spiked with angiotensin II and the internal standard 1-SAR-8-Ile angiotensin II, were also analyzed using the fast-evaporation technique. The detection limit was calculated to be in the high attomole range (675 amol). Furthermore, the accuracy for a single determination of angiotensin II concentration in these samples was found to be 13.9% with a relative error of 8.19%.

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Arkady I. Gusev

Small molecule analysis by MALDI mass spectrometry

Improvement of signal reproducibility and matrix/comatrix effects in MALDI analysis

Effect of liquid chromatography separation of complex matrices on liquid chromatography–tandem mass spectrometry signal suppression

Quantitative Measurement of Cyclosporin A in Blood by Time-of-Flight Mass Spectrometry

Application of the fast‐evaporation sample preparation method for improving quantification of angiotensin II by matrix‐assisted laser desorption/ionization

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