Extended stability of the trastuzumab biosimilar ABP 980 (KANJINTI™) in polyolefin bags and elastomeric devices

Pub Date : 2021-12-15 DOI:10.5639/gabij.2021.1004.021
Lyndsay Davies, K. Milligan, Mark Corris, I. Clarke, Paul Dwyer, Sarah Elizabeth Lee, Jolene Teraoka, Jill Crouse-Zeineddini, J. Hippenmeyer
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Abstract

Study Objectives: To investigate the quality and in-use stability of the trastuzumab biosimilar ABP 980 (KANJINTI™) in both concentrated multi-dose bags and following dilution and extended storage in intravenous (IV) bags and elastomeric devices, to address the stability requirements of diff erent global pharmacy practices. Methods: The eff ect of extended refrigerated storage plus exposure to in-use temperature conditions on KANJINTI™ (trastuzumab) solutions was assessed using a range of stability-indicating analytical methods, including appearance, pH, SEC, nonreducing CGE, reducing-CGE, CZE, sub-visible particle counting and potency by a cell-based proliferation inhibition assay. Stability of reconstituted 21 mg/mL solution stored in multi-dose bags and diluted samples at 0.3 mg/mL, 0.8 mg/mL and 4 mg/ mL in 0.9% w/v NaCl solutions stored in IV bags and elastomeric devices was determined over diff erent storage durations. Forced degraded samples exposed to room temperature and natural daylight were used to demonstrate the stability-indicating abilities of the methods. Results: No signifi cant changes were observed in the appearance, pH, monomer concentration, purity, charge heterogeneity, sub-visible particle counts or bioactivity, regardless of initial concentration, container or storage duration. Discussion: There was no indication of signifi cant changes to the physicochemical stability or bioactivity of any of the solutions following extended storage when compared to the initial results acquired on the day of preparation. Conclusion: The data presented has demonstrated the physicochemical stability and bioactivity of a range of KANJINTI™ (trastuzumab) solutions when prepared using controlled and validated aseptic processes, stored protected from light for extended periods at 2°C–8°C and subjected to in-use temperatures. The stability demonstrated in multi-dose bags and elastomeric devices provides additional preparation options to address diff erent global pharmacy practices and requirements.
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曲妥珠单抗生物仿制药ABP 980 (KANJINTI™)在聚烯烃袋和弹性体装置中的扩展稳定性
研究目的:研究曲妥珠单抗生物仿制药ABP 980 (KANJINTI™)在浓缩多剂量袋、稀释后延长静脉(IV)袋和弹性装置中的质量和使用稳定性,以满足不同全球药学实践的稳定性要求。方法:使用一系列稳定性指示分析方法,包括外观、pH、SEC、非还原性CGE、还原性CGE、CZE、亚可见颗粒计数和基于细胞的增殖抑制试验的效力,评估延长冷藏和暴露于使用温度条件下对KANJINTI™(曲妥珠单抗)溶液的影响。测定了21 mg/mL复配液在多剂量袋中的稳定性,以及0.3 mg/mL、0.8 mg/mL和4 mg/mL稀释后的样品在0.9% w/v NaCl溶液中的稳定性,分别存放在静脉注射袋和弹性装置中。暴露在室温和自然光下的强制降解样品被用来证明该方法的稳定性指示能力。结果:无论初始浓度、容器或储存时间如何,外观、pH、单体浓度、纯度、电荷异质性、亚可见颗粒计数或生物活性均无显著变化。讨论:与制备当天获得的初始结果相比,没有迹象表明任何溶液在延长储存后的物理化学稳定性或生物活性有显著变化。结论:这些数据证明了一系列KANJINTI™(曲妥珠单抗)溶液的物理化学稳定性和生物活性,这些溶液采用控制和验证的无菌工艺制备,在2°C - 8°C的避光条件下长时间储存,并置于使用温度下。在多剂量袋和弹性体装置中证明的稳定性为解决不同的全球药房实践和要求提供了额外的制备选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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