John Garner, Sarah Skidmore, Gary Overdorf, Justin Hadar, Haesun Park, Kinam Park, Yan Wang, Young Kuk Jhon, William C Smith, Deyi Zhang, Yuan Zou
{"title":"亚毫克级酸性端帽聚乳酸(PLGA)定量分析新方法。","authors":"John Garner, Sarah Skidmore, Gary Overdorf, Justin Hadar, Haesun Park, Kinam Park, Yan Wang, Young Kuk Jhon, William C Smith, Deyi Zhang, Yuan Zou","doi":"10.1021/acs.molpharmaceut.4c01057","DOIUrl":null,"url":null,"abstract":"<p><p>Characterization of PLGA polymers used in FDA-approved drug products is critical for quality control and qualitative/quantitative (Q1/Q2) evaluation of potential generic formulations. Various techniques have been developed and used to characterize the molecular properties of PLGA polymers, such as molecular weight, molecular composition, and molecular structure. Commonly used techniques include gel permeation chromatography (GPC), nuclear magnetic resonance (NMR), semisolvent methods, and GPC-based intrinsic viscosity measurement. It is noted that the existing analytical methods may not be able to separate and quantify PLGA polymers when used as a mixture in a drug product (e.g., Durysta and Ozurdex). In particular, one assay method still lacking is quantitating the PLGA polymer with acid-end-cap (PLGA-A) in the mixture containing PLGA with ester-end-cap (PLGA-E), especially when the sample quantity is below the submilligram level. The total PLGA quantities available in Durysta and Ozurdex formulations are too small (<1 mg) to use existing assay methods to quantify the PLGA-A content. A new assay method was developed to quantitate PLGA-A in the mixture with PLGA-E. The acid end-cap was modified with pyrene methylamine (a UV dye) to enhance the signal and compared with the total PLGA quantity measured with the refractive index (RI) after a sample was run through a GPC. This GPC-UV/RI approach is based on measuring the total acid number (TAN) of PLGA-A and converting it to the PLGA-A quantity to compare with the total PLGA. Unlike conventional methods of measuring TAN, the GPC-UV/RI methods enables TAN measurements of submilligram PLGA quantities. Application of this method to Ozurdex-similar samples showed the expected acid:ester ratio of PLGAs. This new approach provides another powerful tool for characterizing PLGA polymers in FDA-approved drug products. This is especially significant considering that the PLGAs of commercial products are likely to have molecular properties different from those of the raw PLGAs before going through the manufacturing process.</p>","PeriodicalId":52,"journal":{"name":"Molecular Pharmaceutics","volume":" ","pages":""},"PeriodicalIF":4.5000,"publicationDate":"2024-11-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"A New Analytical Method for Quantifying Acid-End-Cap PLGA in Sub-Milligram Quantities.\",\"authors\":\"John Garner, Sarah Skidmore, Gary Overdorf, Justin Hadar, Haesun Park, Kinam Park, Yan Wang, Young Kuk Jhon, William C Smith, Deyi Zhang, Yuan Zou\",\"doi\":\"10.1021/acs.molpharmaceut.4c01057\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Characterization of PLGA polymers used in FDA-approved drug products is critical for quality control and qualitative/quantitative (Q1/Q2) evaluation of potential generic formulations. Various techniques have been developed and used to characterize the molecular properties of PLGA polymers, such as molecular weight, molecular composition, and molecular structure. Commonly used techniques include gel permeation chromatography (GPC), nuclear magnetic resonance (NMR), semisolvent methods, and GPC-based intrinsic viscosity measurement. It is noted that the existing analytical methods may not be able to separate and quantify PLGA polymers when used as a mixture in a drug product (e.g., Durysta and Ozurdex). In particular, one assay method still lacking is quantitating the PLGA polymer with acid-end-cap (PLGA-A) in the mixture containing PLGA with ester-end-cap (PLGA-E), especially when the sample quantity is below the submilligram level. The total PLGA quantities available in Durysta and Ozurdex formulations are too small (<1 mg) to use existing assay methods to quantify the PLGA-A content. A new assay method was developed to quantitate PLGA-A in the mixture with PLGA-E. The acid end-cap was modified with pyrene methylamine (a UV dye) to enhance the signal and compared with the total PLGA quantity measured with the refractive index (RI) after a sample was run through a GPC. This GPC-UV/RI approach is based on measuring the total acid number (TAN) of PLGA-A and converting it to the PLGA-A quantity to compare with the total PLGA. Unlike conventional methods of measuring TAN, the GPC-UV/RI methods enables TAN measurements of submilligram PLGA quantities. Application of this method to Ozurdex-similar samples showed the expected acid:ester ratio of PLGAs. This new approach provides another powerful tool for characterizing PLGA polymers in FDA-approved drug products. 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A New Analytical Method for Quantifying Acid-End-Cap PLGA in Sub-Milligram Quantities.
Characterization of PLGA polymers used in FDA-approved drug products is critical for quality control and qualitative/quantitative (Q1/Q2) evaluation of potential generic formulations. Various techniques have been developed and used to characterize the molecular properties of PLGA polymers, such as molecular weight, molecular composition, and molecular structure. Commonly used techniques include gel permeation chromatography (GPC), nuclear magnetic resonance (NMR), semisolvent methods, and GPC-based intrinsic viscosity measurement. It is noted that the existing analytical methods may not be able to separate and quantify PLGA polymers when used as a mixture in a drug product (e.g., Durysta and Ozurdex). In particular, one assay method still lacking is quantitating the PLGA polymer with acid-end-cap (PLGA-A) in the mixture containing PLGA with ester-end-cap (PLGA-E), especially when the sample quantity is below the submilligram level. The total PLGA quantities available in Durysta and Ozurdex formulations are too small (<1 mg) to use existing assay methods to quantify the PLGA-A content. A new assay method was developed to quantitate PLGA-A in the mixture with PLGA-E. The acid end-cap was modified with pyrene methylamine (a UV dye) to enhance the signal and compared with the total PLGA quantity measured with the refractive index (RI) after a sample was run through a GPC. This GPC-UV/RI approach is based on measuring the total acid number (TAN) of PLGA-A and converting it to the PLGA-A quantity to compare with the total PLGA. Unlike conventional methods of measuring TAN, the GPC-UV/RI methods enables TAN measurements of submilligram PLGA quantities. Application of this method to Ozurdex-similar samples showed the expected acid:ester ratio of PLGAs. This new approach provides another powerful tool for characterizing PLGA polymers in FDA-approved drug products. This is especially significant considering that the PLGAs of commercial products are likely to have molecular properties different from those of the raw PLGAs before going through the manufacturing process.
期刊介绍:
Molecular Pharmaceutics publishes the results of original research that contributes significantly to the molecular mechanistic understanding of drug delivery and drug delivery systems. The journal encourages contributions describing research at the interface of drug discovery and drug development.
Scientific areas within the scope of the journal include physical and pharmaceutical chemistry, biochemistry and biophysics, molecular and cellular biology, and polymer and materials science as they relate to drug and drug delivery system efficacy. Mechanistic Drug Delivery and Drug Targeting research on modulating activity and efficacy of a drug or drug product is within the scope of Molecular Pharmaceutics. Theoretical and experimental peer-reviewed research articles, communications, reviews, and perspectives are welcomed.