Potential mutagenic impurities in Active Pharmaceutical Ingredient, Meropenem Trihydrate were assessed and a novel analytical method for their quantification was developed and validated. This Liquid Chromatographic me...Potential mutagenic impurities in Active Pharmaceutical Ingredient, Meropenem Trihydrate were assessed and a novel analytical method for their quantification was developed and validated. This Liquid Chromatographic method using High Resolution Mass Spectrometer (LC-HRMS) technique is proved to be suitable for simultaneous quantification of all ten identified impurities with required specificity, sensitivity, resolution, precision, accuracy, and other method characteristics as per ICH Guidelines. The acceptable limit of less than 2.9 μg/g was considered for evaluations, based on drug substance dosage and duration of treatment. The method stands most sensitive with a Limit of Detection of 0.35 μg/g, considering the challenge full acceptance criteria as per current regulatory standards.展开更多
Objective:To investigate the in vitro effects of the antihacterial drugs,mcropenem trihydrate.piperacillin sodium,and cefoperazone sodium,on the activity of human serum paraoxonase mPOND.Methods:hPQN1 was purified fro...Objective:To investigate the in vitro effects of the antihacterial drugs,mcropenem trihydrate.piperacillin sodium,and cefoperazone sodium,on the activity of human serum paraoxonase mPOND.Methods:hPQN1 was purified from human serum using simple chromatographic methods.including DEAE-Sephadex anion exchange and Sephadex G-200 gel filtration chromatography.Results:The three antihacterial drugs decreased in vitro hPON1 activity.Inhibition mechanisms meropcnem trihydrate was noncompetitive while piperacillin sodium and cefoperazone sodium were competitive.Conclusions:Our results showed that antihacterial drugs significantly inhibit hPON1 activity,both in vitro,with rank order meropenem trihydrate piperacillin sodium cefoperazone sodium in vitro.展开更多
文摘Potential mutagenic impurities in Active Pharmaceutical Ingredient, Meropenem Trihydrate were assessed and a novel analytical method for their quantification was developed and validated. This Liquid Chromatographic method using High Resolution Mass Spectrometer (LC-HRMS) technique is proved to be suitable for simultaneous quantification of all ten identified impurities with required specificity, sensitivity, resolution, precision, accuracy, and other method characteristics as per ICH Guidelines. The acceptable limit of less than 2.9 μg/g was considered for evaluations, based on drug substance dosage and duration of treatment. The method stands most sensitive with a Limit of Detection of 0.35 μg/g, considering the challenge full acceptance criteria as per current regulatory standards.
基金Supported by Atatrk University Scientific Research Project Fund(BAP-2009/81)
文摘Objective:To investigate the in vitro effects of the antihacterial drugs,mcropenem trihydrate.piperacillin sodium,and cefoperazone sodium,on the activity of human serum paraoxonase mPOND.Methods:hPQN1 was purified from human serum using simple chromatographic methods.including DEAE-Sephadex anion exchange and Sephadex G-200 gel filtration chromatography.Results:The three antihacterial drugs decreased in vitro hPON1 activity.Inhibition mechanisms meropcnem trihydrate was noncompetitive while piperacillin sodium and cefoperazone sodium were competitive.Conclusions:Our results showed that antihacterial drugs significantly inhibit hPON1 activity,both in vitro,with rank order meropenem trihydrate piperacillin sodium cefoperazone sodium in vitro.
