Simultaneous LC–MS/MS analysis of simvastatin, atorvastatin, rosuvastatin and their active metabolites for plasma samples of obese patients underwent gastric bypass surgery

[Display omitted] •LC–MS/MS assay for simvastatin, atorvastatin, rosuvastatin, and active metabolites.•Assay was validated following FDA bioanalytical guidelines in human lipemic plasma.•Assay quantified statins and metabolites in clinical plasma of GBS obese patients. Statins, HMG-CoA reductase inh...

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Published inJournal of pharmaceutical and biomedical analysis Vol. 164; pp. 258 - 267
Main Authors El-Zailik, Asma, Cheung, Lily K., Wang, Yang, Sherman, Vadim, Chow, Diana S.-L.
Format Journal Article
LanguageEnglish
Published England Elsevier B.V 05.02.2019
Subjects
Adult
Atherosclerosis - etiology
Atherosclerosis - prevention & control
Atorvastatin - analogs & derivatives
Atorvastatin - blood
Atorvastatin - pharmacology
Atorvastatin - therapeutic use
Atorvastatin and metabolites
Calibration
Chromatography, High Pressure Liquid - instrumentation
Chromatography, High Pressure Liquid - methods
Female
Gastric Bypass
Humans
Hydroxymethylglutaryl-CoA Reductase Inhibitors
Hyperlipidemias - blood
Hyperlipidemias - complications
Hyperlipidemias - drug therapy
Hyperlipidemic plasma
LC–MS/MS
Male
Middle Aged
Obese subjects from GBS
Obesity - blood
Obesity - complications
Obesity - surgery
Postoperative Period
Preoperative Period
Reproducibility of Results
Rosuvastatin
Rosuvastatin Calcium - blood
Rosuvastatin Calcium - pharmacology
Rosuvastatin Calcium - therapeutic use
Simvastatin - analogs & derivatives
Simvastatin - blood
Simvastatin - pharmacology
Simvastatin - therapeutic use
Simvastatin and metabolite
Tandem Mass Spectrometry - instrumentation
Tandem Mass Spectrometry - methods
Obese subjects from GBS
Hyperlipidemic plasma
Simvastatin and metabolite
Rosuvastatin
Atorvastatin and metabolites
LC–MS/MS
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Abstract [Display omitted] •LC–MS/MS assay for simvastatin, atorvastatin, rosuvastatin, and active metabolites.•Assay was validated following FDA bioanalytical guidelines in human lipemic plasma.•Assay quantified statins and metabolites in clinical plasma of GBS obese patients. Statins, HMG-CoA reductase inhibitors, are considered the first line treatment of hyperlipidemia to reduce the risk of atherosclerotic cardiovascular diseases. The prevalence of hyperlipidemia and the risk of atherosclerotic cardiovascular diseases are higher in obese patients. Published methods for the quantification of statins and their active metabolites did not test for matrix effect of or validate the method in hyperlipidemic plasma. A sensitive, specific, accurate, and reliable LC–MS/MS method for the simultaneous quantification of simvastatin (SMV), active metabolite of simvastatin acid (SMV-A), atorvastatin (ATV), active metabolites of 2-hydroxy atorvastatin (2-OH-ATV), 4-hydroxy atorvastatin (4-OH-ATV), and rosuvastatin (RSV) was developed and validated in plasma with low (52–103 mg/dl, <300 mg/dl) and high (352–403 mg/dl, >300 mg/dl) levels of triglyceride. The column used in this method was ACQUITY UPLC BEH C18 column (2.1 × 100 mm I.D., 1.7 μm). A gradient elution of mobile phase A (10 mM ammonium formate and 0.04% formic acid in water) and mobile phase B (acetonitrile) was used with a flow rate of 0.4 ml/min and run time of 5 min. The transitions of m/z 436.3 → 285.2 for SMV, m/z 437.2 → 303.2 for SMV-A, m/z 559.2 → 440.3 for ATV, m/z 575.4 → 440.3 for 2-OH-ATV and 4-OH-ATV, m/z 482.3 → 258.1 for RSV, and m/z 412.3 → 224.2 for fluvastatin (internal standard, IS) were determined by Selected Reaction Monitoring (SRM) method to detect transitions ions in the positive ion mode. The assay has a linear range of 0.25 (LLOQ) −100 ng/ml for all six analytes. Accuracy (87–114%), precision (3–13%), matrix effect (92–110%), and extraction recovery (88–100%) of the assay were within the 15% acceptable limit of FDA Guidelines in variations for plasma with both low and high triglyceride levels. The method was used successfully for the quantification of SMV, ATV, RSV, and their active metabolites in human plasma samples collected for an ongoing clinical pharmacokinetic and pharmacodynamic study on patients prior to and post gastric bypass surgery (GBS).
AbstractList Statins, HMG-CoA reductase inhibitors, are considered the first line treatment of hyperlipidemia to reduce the risk of atherosclerotic cardiovascular diseases. The prevalence of hyperlipidemia and the risk of atherosclerotic cardiovascular diseases are higher in obese patients. Published methods for the quantification of statins and their active metabolites did not test for matrix effect of or validate the method in hyperlipidemic plasma. A sensitive, specific, accurate, and reliable LC-MS/MS method for the simultaneous quantification of simvastatin (SMV), active metabolite of simvastatin acid (SMV-A), atorvastatin (ATV), active metabolites of 2-hydroxy atorvastatin (2-OH-ATV), 4-hydroxy atorvastatin (4-OH-ATV), and rosuvastatin (RSV) was developed and validated in plasma with low (52-103 mg/dl, <300 mg/dl) and high (352-403 mg/dl, >300 mg/dl) levels of triglyceride. The column used in this method was ACQUITY UPLC BEH C18 column (2.1 × 100 mm I.D., 1.7 μm). A gradient elution of mobile phase A (10 mM ammonium formate and 0.04% formic acid in water) and mobile phase B (acetonitrile) was used with a flow rate of 0.4 ml/min and run time of 5 min. The transitions of m/z 436.3 → 285.2 for SMV, m/z 437.2 → 303.2 for SMV-A, m/z 559.2 → 440.3 for ATV, m/z 575.4 → 440.3 for 2-OH-ATV and 4-OH-ATV, m/z 482.3 → 258.1 for RSV, and m/z 412.3 → 224.2 for fluvastatin (internal standard, IS) were determined by Selected Reaction Monitoring (SRM) method to detect transitions ions in the positive ion mode. The assay has a linear range of 0.25 (LLOQ) -100 ng/ml for all six analytes. Accuracy (87-114%), precision (3-13%), matrix effect (92-110%), and extraction recovery (88-100%) of the assay were within the 15% acceptable limit of FDA Guidelines in variations for plasma with both low and high triglyceride levels. The method was used successfully for the quantification of SMV, ATV, RSV, and their active metabolites in human plasma samples collected for an ongoing clinical pharmacokinetic and pharmacodynamic study on patients prior to and post gastric bypass surgery (GBS).Statins, HMG-CoA reductase inhibitors, are considered the first line treatment of hyperlipidemia to reduce the risk of atherosclerotic cardiovascular diseases. The prevalence of hyperlipidemia and the risk of atherosclerotic cardiovascular diseases are higher in obese patients. Published methods for the quantification of statins and their active metabolites did not test for matrix effect of or validate the method in hyperlipidemic plasma. A sensitive, specific, accurate, and reliable LC-MS/MS method for the simultaneous quantification of simvastatin (SMV), active metabolite of simvastatin acid (SMV-A), atorvastatin (ATV), active metabolites of 2-hydroxy atorvastatin (2-OH-ATV), 4-hydroxy atorvastatin (4-OH-ATV), and rosuvastatin (RSV) was developed and validated in plasma with low (52-103 mg/dl, <300 mg/dl) and high (352-403 mg/dl, >300 mg/dl) levels of triglyceride. The column used in this method was ACQUITY UPLC BEH C18 column (2.1 × 100 mm I.D., 1.7 μm). A gradient elution of mobile phase A (10 mM ammonium formate and 0.04% formic acid in water) and mobile phase B (acetonitrile) was used with a flow rate of 0.4 ml/min and run time of 5 min. The transitions of m/z 436.3 → 285.2 for SMV, m/z 437.2 → 303.2 for SMV-A, m/z 559.2 → 440.3 for ATV, m/z 575.4 → 440.3 for 2-OH-ATV and 4-OH-ATV, m/z 482.3 → 258.1 for RSV, and m/z 412.3 → 224.2 for fluvastatin (internal standard, IS) were determined by Selected Reaction Monitoring (SRM) method to detect transitions ions in the positive ion mode. The assay has a linear range of 0.25 (LLOQ) -100 ng/ml for all six analytes. Accuracy (87-114%), precision (3-13%), matrix effect (92-110%), and extraction recovery (88-100%) of the assay were within the 15% acceptable limit of FDA Guidelines in variations for plasma with both low and high triglyceride levels. The method was used successfully for the quantification of SMV, ATV, RSV, and their active metabolites in human plasma samples collected for an ongoing clinical pharmacokinetic and pharmacodynamic study on patients prior to and post gastric bypass surgery (GBS).
[Display omitted] •LC–MS/MS assay for simvastatin, atorvastatin, rosuvastatin, and active metabolites.•Assay was validated following FDA bioanalytical guidelines in human lipemic plasma.•Assay quantified statins and metabolites in clinical plasma of GBS obese patients. Statins, HMG-CoA reductase inhibitors, are considered the first line treatment of hyperlipidemia to reduce the risk of atherosclerotic cardiovascular diseases. The prevalence of hyperlipidemia and the risk of atherosclerotic cardiovascular diseases are higher in obese patients. Published methods for the quantification of statins and their active metabolites did not test for matrix effect of or validate the method in hyperlipidemic plasma. A sensitive, specific, accurate, and reliable LC–MS/MS method for the simultaneous quantification of simvastatin (SMV), active metabolite of simvastatin acid (SMV-A), atorvastatin (ATV), active metabolites of 2-hydroxy atorvastatin (2-OH-ATV), 4-hydroxy atorvastatin (4-OH-ATV), and rosuvastatin (RSV) was developed and validated in plasma with low (52–103 mg/dl, <300 mg/dl) and high (352–403 mg/dl, >300 mg/dl) levels of triglyceride. The column used in this method was ACQUITY UPLC BEH C18 column (2.1 × 100 mm I.D., 1.7 μm). A gradient elution of mobile phase A (10 mM ammonium formate and 0.04% formic acid in water) and mobile phase B (acetonitrile) was used with a flow rate of 0.4 ml/min and run time of 5 min. The transitions of m/z 436.3 → 285.2 for SMV, m/z 437.2 → 303.2 for SMV-A, m/z 559.2 → 440.3 for ATV, m/z 575.4 → 440.3 for 2-OH-ATV and 4-OH-ATV, m/z 482.3 → 258.1 for RSV, and m/z 412.3 → 224.2 for fluvastatin (internal standard, IS) were determined by Selected Reaction Monitoring (SRM) method to detect transitions ions in the positive ion mode. The assay has a linear range of 0.25 (LLOQ) −100 ng/ml for all six analytes. Accuracy (87–114%), precision (3–13%), matrix effect (92–110%), and extraction recovery (88–100%) of the assay were within the 15% acceptable limit of FDA Guidelines in variations for plasma with both low and high triglyceride levels. The method was used successfully for the quantification of SMV, ATV, RSV, and their active metabolites in human plasma samples collected for an ongoing clinical pharmacokinetic and pharmacodynamic study on patients prior to and post gastric bypass surgery (GBS).
Statins, HMG-CoA reductase inhibitors, are considered the first line treatment of hyperlipidemia to reduce the risk of atherosclerotic cardiovascular diseases. The prevalence of hyperlipidemia and the risk of atherosclerotic cardiovascular diseases are higher in obese patients. Published methods for the quantification of statins and their active metabolites did not test for matrix effect of or validate the method in hyperlipidemic plasma. A sensitive, specific, accurate, and reliable LC-MS/MS method for the simultaneous quantification of simvastatin (SMV), active metabolite of simvastatin acid (SMV-A), atorvastatin (ATV), active metabolites of 2-hydroxy atorvastatin (2-OH-ATV), 4-hydroxy atorvastatin (4-OH-ATV), and rosuvastatin (RSV) was developed and validated in plasma with low (52–103 mg/dl, < 300 mg/dl) and high (352–403 mg/dl, > 300 mg/dl) levels of triglyceride. The column used in this method was ACQUITY UPLC BEH C18 column (2.1 × 100 mm I.D., 1.7 μm). A gradient elution of mobile phase A (10 mM ammonium formate and 0.04% formic acid in water) and mobile phase B (acetonitrile) was used with a flow rate of 0.4 ml/min and run time of 5 min. The transitions of m/z 436.3 → 285.2 for SMV, m/z 437.2 → 303.2 for SMV-A, m/z 559.2 → 440.3 for ATV, m/z 575.4 → 440.3 for 2-OH-ATV and 4-OH-ATV, m/z 482.3 → 258.1 for RSV, and m/z 412.3 → 224.2 for fluvastatin (internal standard, IS) were determined by Selected Reaction Monitoring (SRM) method to detect transitions ions in the positive ion mode. The assay has a linear range of 0.25 (LLOQ) −100 ng/ml for all six analytes. Accuracy (87–114 %), precision (3–13 %), matrix effect (92–110 %), and extraction recovery (88–100 %) of the assay were within the 15% acceptable limit of FDA Guidelines in variations for plasma with both low and high triglyceride levels. The method was used successfully for the quantification of SMV, ATV, RSV, and their active metabolites in human plasma samples collected for an ongoing clinical pharmacokinetic and pharmacodynamic study on patients prior to and post gastric bypass surgery (GBS).
Statins, HMG-CoA reductase inhibitors, are considered the first line treatment of hyperlipidemia to reduce the risk of atherosclerotic cardiovascular diseases. The prevalence of hyperlipidemia and the risk of atherosclerotic cardiovascular diseases are higher in obese patients. Published methods for the quantification of statins and their active metabolites did not test for matrix effect of or validate the method in hyperlipidemic plasma. A sensitive, specific, accurate, and reliable LC-MS/MS method for the simultaneous quantification of simvastatin (SMV), active metabolite of simvastatin acid (SMV-A), atorvastatin (ATV), active metabolites of 2-hydroxy atorvastatin (2-OH-ATV), 4-hydroxy atorvastatin (4-OH-ATV), and rosuvastatin (RSV) was developed and validated in plasma with low (52-103 mg/dl, <300 mg/dl) and high (352-403 mg/dl, >300 mg/dl) levels of triglyceride. The column used in this method was ACQUITY UPLC BEH C18 column (2.1 × 100 mm I.D., 1.7 μm). A gradient elution of mobile phase A (10 mM ammonium formate and 0.04% formic acid in water) and mobile phase B (acetonitrile) was used with a flow rate of 0.4 ml/min and run time of 5 min. The transitions of m/z 436.3 → 285.2 for SMV, m/z 437.2 → 303.2 for SMV-A, m/z 559.2 → 440.3 for ATV, m/z 575.4 → 440.3 for 2-OH-ATV and 4-OH-ATV, m/z 482.3 → 258.1 for RSV, and m/z 412.3 → 224.2 for fluvastatin (internal standard, IS) were determined by Selected Reaction Monitoring (SRM) method to detect transitions ions in the positive ion mode. The assay has a linear range of 0.25 (LLOQ) -100 ng/ml for all six analytes. Accuracy (87-114%), precision (3-13%), matrix effect (92-110%), and extraction recovery (88-100%) of the assay were within the 15% acceptable limit of FDA Guidelines in variations for plasma with both low and high triglyceride levels. The method was used successfully for the quantification of SMV, ATV, RSV, and their active metabolites in human plasma samples collected for an ongoing clinical pharmacokinetic and pharmacodynamic study on patients prior to and post gastric bypass surgery (GBS).
Author Wang, Yang
El-Zailik, Asma
Chow, Diana S.-L.
Cheung, Lily K.
Sherman, Vadim
AuthorAffiliation 3 Department of Surgery, Houston Methodist Hospital, Houston, TX
2 Department of Pharmacy Practice and Clinical Health Sciences, College of Pharmacy and Health Sciences, Texas Southern University, Houston, TX
1 Department of Pharmacological and Pharmaceutical Sciences, College of Pharmacy, University of Houston, Houston, TX
AuthorAffiliation_xml – name: 2 Department of Pharmacy Practice and Clinical Health Sciences, College of Pharmacy and Health Sciences, Texas Southern University, Houston, TX
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  givenname: Lily K.
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  organization: Department of Pharmacy Practice and Clinical Health Sciences, College of Pharmacy and Health Sciences, Texas Southern University, Houston, TX, United States
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  organization: Department of Pharmacological and Pharmaceutical Sciences, College of Pharmacy, University of Houston, Houston, TX, United States
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Keywords Obese subjects from GBS
Hyperlipidemic plasma
Simvastatin and metabolite
Rosuvastatin
Atorvastatin and metabolites
LC–MS/MS
Language English
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Snippet [Display omitted] •LC–MS/MS assay for simvastatin, atorvastatin, rosuvastatin, and active metabolites.•Assay was validated following FDA bioanalytical...
Statins, HMG-CoA reductase inhibitors, are considered the first line treatment of hyperlipidemia to reduce the risk of atherosclerotic cardiovascular diseases....
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SubjectTerms Adult
Atherosclerosis - etiology
Atherosclerosis - prevention & control
Atorvastatin - analogs & derivatives
Atorvastatin - blood
Atorvastatin - pharmacology
Atorvastatin - therapeutic use
Atorvastatin and metabolites
Calibration
Chromatography, High Pressure Liquid - instrumentation
Chromatography, High Pressure Liquid - methods
Female
Gastric Bypass
Humans
Hydroxymethylglutaryl-CoA Reductase Inhibitors
Hyperlipidemias - blood
Hyperlipidemias - complications
Hyperlipidemias - drug therapy
Hyperlipidemic plasma
LC–MS/MS
Male
Middle Aged
Obese subjects from GBS
Obesity - blood
Obesity - complications
Obesity - surgery
Postoperative Period
Preoperative Period
Reproducibility of Results
Rosuvastatin
Rosuvastatin Calcium - blood
Rosuvastatin Calcium - pharmacology
Rosuvastatin Calcium - therapeutic use
Simvastatin - analogs & derivatives
Simvastatin - blood
Simvastatin - pharmacology
Simvastatin - therapeutic use
Simvastatin and metabolite
Tandem Mass Spectrometry - instrumentation
Tandem Mass Spectrometry - methods
Title Simultaneous LC–MS/MS analysis of simvastatin, atorvastatin, rosuvastatin and their active metabolites for plasma samples of obese patients underwent gastric bypass surgery
URI https://dx.doi.org/10.1016/j.jpba.2018.10.045
https://www.ncbi.nlm.nih.gov/pubmed/30396053
https://www.proquest.com/docview/2130301560
https://pubmed.ncbi.nlm.nih.gov/PMC6298799
Volume 164
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