Analyst tf version 1

Manufactured by AB Sciex

Sourced in United States

The Analyst® TF Version 1.6 is a software application designed for the analysis and processing of mass spectrometry data. It provides essential features for instrument control, data acquisition, and data analysis within the AB Sciex product ecosystem.

Automatically generated - may contain errors

Lab products found in correlation

Multiquant version 2, by AB Sciex (8 mentions) Peakview version 2, by AB Sciex (3 mentions) Metabolitepilot version 2, by AB Sciex (2 mentions) Winnonlin, by Certara (1 mentions) Phoenix winnonlin, by Certara (1 mentions) Winnonlin version 6, by Pharsight (1 mentions)

8 protocols using analyst tf version 1

Vipadenant Metabolite Identification

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Data acquisition and LC-QTOF-MS operation was conducted using Analyst^® TF Version 1.6 (Sciex). MultiQuant^® Version 2.1.1 (Sciex) was used for the peak integration for vipadenant quantification. PeakView^® Version 2.2 and MetabolitePilot™ Version 2.0.2 were used for the structural elucidation of vipadenant metabolites. The descriptive statistics for the qualification studies were calculated with Excel 2015 (Microsoft). Pharmacokinetic parameters were calculated in a non-compartmental analysis using WinNonlin^® version 8.0.0 (Certara, Princeton, NJ, USA).

Shin S.H., Park M.H., Byeon J.J., Lee B.I., Park Y., Kim N., Choi J, & Shin Y.G. (2018). Analysis of Vipadenant and Its In Vitro and In Vivo Metabolites via Liquid Chromatography-Quadrupole-Time-of-Flight Mass Spectrometry. Pharmaceutics, 10(4), 260.

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Quantitative Analysis of α-Amanitin

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Data acquisition and a LC-qTOF-MS operation were conducted using Analyst^® TF Version 1.6 (Sciex, Foster City, CA, USA). α-Amanitin was quantified by MultiQuant^® Version 2.1.1 (Sciex, Foster City, CA, USA) using peak integration. The PK parameters of α-amanitin were calculated by WinNonlin^® version 8.1.0 (Certara, Princeton, NJ, USA) in a non-compartment analysis. For MetID analysis, PeakView^® Version 2.2 (Sciex, Foster City, CA, USA) and MetabolitePilot™ Version 2.0.2 (Sciex, Foster City, CA, USA) were used for the structural elucidation of α-amanitin metabolites. Excel 2016 spreadsheet (Microsoft^®) was also used to process the statistical analysis of results.

Lee J., Lee B.I., Choi J., Park Y., Park S.J., Park M., Lim J.H., Hwang S., Lee J.M, & Shin Y.G. (2022). Investigation of In Vitro and In Vivo Metabolism of α-Amanitin in Rats Using Liquid Chromatography-Quadrupole Time-of-Flight Mass Spectrometric Method. Molecules, 27(23), 8612.

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LC-MS/MS-based Metabolite Profiling

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Data acquisition and LC-MS/MS operation were conducted using Analyst® TF Version 1.6 (Sciex, Redwood City, CA, USA). MultiQuant® Version 2.1.1 (Sciex, Redwood City, CA, USA) was used for peak integration for MMAF quantification. The descriptive statistics for the qualification studies were calculated with Excel 2015 (Microsoft, Seoul, Korea). Pharmacokinetic parameters were calculated in a non-compartmental analysis using WinNonlin® version 8.0.0 (Certara, Princeton, NJ, USA). PeakView® Version 2.2 (Sciex, Redwood City, CA, USA) and MetabolitePilot^TM Version 2.0.2 (Sciex, Redwood City, CA, USA) were used for the structural elucidation of metabolites. MedChem Designer (Simulations Plus, Inc, Lancaster, CA, USA) was used for in silico metabolite prediction.

Park M.H., Lee B.I., Byeon J.J., Shin S.H., Choi J., Park Y, & Shin Y.G. (2019). Pharmacokinetic and Metabolism Studies of Monomethyl Auristatin F via Liquid Chromatography-Quadrupole-Time-of-Flight Mass Spectrometry. Molecules, 24(15), 2754.

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Omeprazole Pharmacokinetics and Metabolite Profiling

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Data acquisition and LC–QTOF-MS operation was conducted using Analyst^® TF Version 1.6 (Sciex). MultiQuant^® Version 2.1.1 (Sciex) was used for the peak integration of omeprazole for quantification. PeakView^® Version 2.2 and MetabolitePilot^TM Version 2.0.2 were used for the structural elucidation of omeprazole metabolites. Pharmacokinetic parameters were calculated in a non-compartmental analysis using WinNonlin^® version 8.0.0 (Certara, Princeton, NJ, USA).

Shin S.H., Park Y., Park M.H., Byeon J.J., Lee B.I., Choi J, & Shin Y.G. (2020). Profiling and Identification of Omeprazole Metabolites in Mouse Brain and Plasma by Isotope Ratio-Monitoring Liquid Chromatography-Mass Spectrometric Method. Life, 10(7), 115.

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Quantitative Analytical Workflow

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Analyst^® TF Version 1.6 (Sciex, Foster City, CA, USA) operated with Windows^® (Microsoft Corp., Redmond, WA, USA) was used for the instrument control as well as the data acquisition. MultiQuant^® Version 2.1.1 (Sciex, Foster City, CA, USA) was used for the peak integration. Excel 2015 (Microsoft) was used for all calculations including peak area ratios, standard curve regressions, sample concentration values, and descriptive statistics.

Shin S.H., Park M.H., Byeon J.J., Lee B.I., Park Y., Ko A.R., Seong M.R., Lee S., Kim M.R., Seo J., Jung M.E., Jin D.K, & Shin Y.G. (2018). A Liquid Chromatography-Quadrupole-Time-of-Flight Mass Spectrometric Assay for the Quantification of Fabry Disease Biomarker Globotriaosylceramide (GB3) in Fabry Model Mouse. Pharmaceutics, 10(2), 69.

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Plasma and Brain Pharmacokinetics Analysis

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The plasma and brain PK parameters (terminal half-life (T_1/2), time to reach maximum concentration (T_max), the area under the curve up to the last time point (AUC_last)) were estimated from the mean concentrations at each time by non-compartmental analysis (NCA) using Phoenix WinNonlin^® Version 8.0.0 (Certara, Princeton, NJ, USA). The T_1/2 and AUC_last were calculated using a linear trapezoidal linear interpolation method; T_max were observed values. The brain to plasma AUC ratios of the compounds (Kp_brain) were calculated as follows:

The AUC_last-brain and AUC_last-plasma were each AUC_last of the brain and plasma, respectively.
Data acquisition and LC-ESI-TOF-MS operation were conducted using Analyst^® TF Version 1.6 (Sciex). MultiQuant^® Version 2.1.1 (Sciex) was used for the peak integration of SAS for quantification. PeakView^® Version 2.2 and MetabolitePilot^TM Version 2.0.2 were used for the structural elucidation of SAS metabolites.

Choi J., Park M.H., Shin S.H., Byeon J.J., Lee B.I., Park Y, & Shin Y.G. (2021). Quantification and Metabolite Identification of Sulfasalazine in Mouse Brain and Plasma Using Quadrupole-Time-of-Flight Mass Spectrometry. Molecules, 26(4), 1179.

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Analytical Workflow for Pharmacokinetic Studies

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Analyst^® TF Version 1.6 (Sciex, Foster City, CA, USA) operated with Windows^® (Microsoft) was used for instrument control and data acquisition. Peak integrations were operated by MultiQuant^® Version 2.1.1 (Sciex, Foster City, CA, USA). Calculations including peak area ratios, standard curve regressions, sample concentration values and descriptive statistics were calculated with MultiQuant^® Version 2.1.1. Pharmacokinetic calculations were performed using WinNonLin^® version 6.4 (Pharsight Corporation, Mountain View, CA, USA).

Park Y., Kim N., Choi J., Park M.H., Lee B.I., Shin S.H., Byeon J.J, & Shin Y.G. (2018). Qualification and Application of a Liquid Chromatography-Quadrupole Time-of-Flight Mass Spectrometric Method for the Determination of Adalimumab in Rat Plasma. Pharmaceutics, 10(2), 61.

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Quantification and Structural Elucidation of Daporinad

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Data acquisition and LC-qTOF-MS operation was conducted using Analyst^® TF Version 1.6 (Sciex, Foster City, CA, USA). MultiQuant^® Version 2.1.1 (Sciex, Foster City, CA, USA) was used for the peak integration for Daporinad quantification. PeakView^® Version 2.2 (Sciex, Foster City, CA, USA) and MetabolitePilot™ Version 2.0.2 (Sciex, Foster City, CA, USA) were used for the structural elucidation of Daporinad metabolites. The descriptive statistics for the qualification studies were calculated with Excel 2015 (Microsoft). Pharmacokinetic parameters were calculated in a non-compartmental analysis using WinNonlin^® version 8.0.0 (Certara, Princeton, NJ, USA).

Park M., Lee B.I., Choi J., Park Y., Park S.J., Lim J.H., Lee J, & Shin Y.G. (2022). Quantitative Analysis of Daporinad (FK866) and Its In Vitro and In Vivo Metabolite Identification Using Liquid Chromatography-Quadrupole-Time-of-Flight Mass Spectrometry. Molecules, 27(6), 2011.

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