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    Vol 58, Issue 2 (Suppl.), 2024

    Stability Indicating RP-UPLC Method for Impurity Profiling of Darunavir and Ritonavir in Fixed Dose Drug Combination Product

    Updated:2 Mins Read
    Munish Buch12 and Hasit Vaghani1
    Author informationCitations

    1Department of Chemistry, Mehsana Urban Institute of Sciences, Ganpat University, Mehsana, INDIA

    2Department of Analytical Development, Emcure Pharmaceuticals Limited, Gandhinagar, INDIA

    Corresponding author.

    Correspondence: Mr. Munish Buch Department of Chemistry, Mehsana Urban Institute of Sciences, Ganpat University, Ganpat Vidyanagar, Kherva, Mehsana-384012, Gujarat, INDIA. Email: munish.buch10@gmail.com

    Author Notes

    April 19, 2023; September 17, 2023; January 06, 2024.

    Copyright and License information

    Copyright ©2024 IJPER
    This is an open access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 License, which allows others to remix, tweak, and build upon the work non-commercially, as long as the author is credited and the new creations are licensed under the identical terms.
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    Citation

    1.Buch M, Vaghani H. Stability Indicating RP-UPLC Method for Impurity Profiling of Darunavir and Ritonavir in Fixed Dose Drug Combination Product. Indian Journal of Pharmaceutical Education and Research [Internet]. 2024 May 28;58(2s):s558–65. Available from: http://dx.doi.org/10.5530/ijper.58.2s.58
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    Published in: Indian Journal of Pharmaceutical Education and Research, 2024; 58(2s): s558-s565.Published online: 27 May 2024DOI: 10.5530/ijper.58.2s.58

    ABSTRACT

    Background

    The goal of the proposed study was to develop and validate stability indicating mass compatible reverse phase UPLC method for impurity profiling of Darunavir Ethanolate and Ritonavir degradation impurities in fixed-dose drug combination products.

    Materials and Methods

    The optimized chromatographic condition includes use of Zorbax Bonus C18 column (150×2.1 mm, 1.8 μm) with mobile phase A (Buffer (55): Methanol (45)) and mobile phase B (Acetonitrile: (30) and Methanol (70)), flow rate of 0.22 mL/min and detection at 240 nm with gradient program of 50 min. The method was validated as per ICH quality guideline Q2 (R1) including specificity by forced degradation study to confirm suitability for intended use.

    Results

    The observed retention time for Darunavir was 11.4 min and for Ritonavir was 30.0 min. The Limit of Quantitation (LOQ) for all degradation impurities found is 0.05%, equivalent to the reporting threshold level. The method was found linear and accurate in the range of LOQ to 150% with an observed range of % accuracy of 90.1 to 106.3 for all known impurities. The method was found precise based on less than 10.0% RSD and robust for deliberate changes. Considering the use of a volatile mobile phase, the method can be applied for LC-MS-based analysis for mass identification.

    Conclusion

    The developed UPLC method was applied for impurity profiling during the release and stability study of Darunavir Ethanolate and Ritonavir in fixed-dose drug combination products.

    Keywords: Method Validation, Forced degradation, Linearity, Accuracy, Robustness, Impurity profiling

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