Stability assessment of FDA‐approved ramucirumab monoclonal antibody; validated SE‐HPLC method for degradation pattern evaluation

Ramucirumab (RAMU) is a recently US Food and Drug Administration‐approved monoclonal antibody that is included in various anticancer protocols. It has a structural complexity and high degradation risk that have a significant effect on its safety and effectiveness. The major aim of this work was to a...

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Veröffentlicht in:	Biomedical chromatography 2022-02, Vol.36 (2), p.e5258-n/a
Hauptverfasser:	Abdelghaffar, Sara Hesham, Hegazy, Maha Abdelmonem, Eltanany, Basma Mohamed
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Sprache:	eng
Schlagworte:	Antibodies, Monoclonal, Humanized - analysis Antibodies, Monoclonal, Humanized - chemistry bio‐therapeutics Chromatography, Gel - methods Chromatography, High Pressure Liquid - methods degradation pattern Humans Limit of Detection Linear Models Peptide Fragments - analysis Peptide Fragments - chemistry Protein Stability Ramucirumab Reproducibility of Results size exclusion chromatography stability
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description	Ramucirumab (RAMU) is a recently US Food and Drug Administration‐approved monoclonal antibody that is included in various anticancer protocols. It has a structural complexity and high degradation risk that have a significant effect on its safety and effectiveness. The major aim of this work was to assess the degradation pattern of RAMU based on physicochemical characterization. Mechanical agitation, repeated freeze–thaw cycles, pH and temperature were the selected stress conditions to which RAMU samples were subjected. The SE‐HPLC method was applied and validated to monitor the RAMU monomer along with its aggregates and/or fragments. The purity of the separated peaks together with system suitability parameters were determined through the calculation of percentage purity and percentage drop in RAMU concentration. The results were interpreted by correlating them with those of dynamic light scattering and reducing and non‐reducing sodium dodecyl sulfate–polyacrylamide gel electrophoresis. Samples incubated at pH 2.0–10.0 and 37°C for up to 4 weeks were analysed, recording detection of reversed phase (RP) aggregates and low molecular weight peptide fragments. Similarly, samples under short‐term storage conditions of 4 weeks at different temperatures (−20, 2–8, 25, 37 and 50°C) showed low molecular weight peptide fragments but to a lesser extent. These results highlight the alarming effect on RAMU multidose vial efficacy and safety.
doi_str_mv	10.1002/bmc.5258
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It has a structural complexity and high degradation risk that have a significant effect on its safety and effectiveness. The major aim of this work was to assess the degradation pattern of RAMU based on physicochemical characterization. Mechanical agitation, repeated freeze–thaw cycles, pH and temperature were the selected stress conditions to which RAMU samples were subjected. The SE‐HPLC method was applied and validated to monitor the RAMU monomer along with its aggregates and/or fragments. The purity of the separated peaks together with system suitability parameters were determined through the calculation of percentage purity and percentage drop in RAMU concentration. The results were interpreted by correlating them with those of dynamic light scattering and reducing and non‐reducing sodium dodecyl sulfate–polyacrylamide gel electrophoresis. Samples incubated at pH 2.0–10.0 and 37°C for up to 4 weeks were analysed, recording detection of reversed phase (RP) aggregates and low molecular weight peptide fragments. Similarly, samples under short‐term storage conditions of 4 weeks at different temperatures (−20, 2–8, 25, 37 and 50°C) showed low molecular weight peptide fragments but to a lesser extent. 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Samples incubated at pH 2.0–10.0 and 37°C for up to 4 weeks were analysed, recording detection of reversed phase (RP) aggregates and low molecular weight peptide fragments. Similarly, samples under short‐term storage conditions of 4 weeks at different temperatures (−20, 2–8, 25, 37 and 50°C) showed low molecular weight peptide fragments but to a lesser extent. 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subjects	Antibodies, Monoclonal, Humanized - analysis Antibodies, Monoclonal, Humanized - chemistry bio‐therapeutics Chromatography, Gel - methods Chromatography, High Pressure Liquid - methods degradation pattern Humans Limit of Detection Linear Models Peptide Fragments - analysis Peptide Fragments - chemistry Protein Stability Ramucirumab Reproducibility of Results size exclusion chromatography stability
title	Stability assessment of FDA‐approved ramucirumab monoclonal antibody; validated SE‐HPLC method for degradation pattern evaluation
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