贝伐单抗生物仿制药abp215制备和静脉袋储存后的理化稳定性

Pub Date : 2020-12-15 DOI:10.5639/GABIJ.2020.0904.026
J. Šečkutė, I. Castellanos, S. Bane
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引用次数: 2

摘要

研究目的:评估贝伐珠单抗生物仿制药abp215在稀释入静脉袋、延长储存和模拟输注后的延长使用稳定性,以实现提前制备和储存。方法:在环境光照条件下,将2批abp215稀释至高剂量浓度(16.5 mg/mL)和低剂量浓度(1.4 mg/mL)的两种静脉输液袋。给药静脉输液袋在2°C - 8°C保存35 d, 30°C保存2 d,第37天每袋输注。采用粒径排除高效液相色谱(SE-HPLC)、阳离子交换高效液相色谱(CEX-HPLC)、还原毛细管电泳-十二烷基硫酸钠(rCE-SDS)、亚可见颗粒检测、目视检测、蛋白质浓度和效价测定等方法进行纯度和理化稳定性分析。结果:用SE-HPLC、CEX-HPLC和rCE-SDS分析稀释、储存和输注两批、两袋、两剂后,abp215的纯度未见显著变化。在整个研究过程中,所有样品的蛋白质浓度保持一致,并且没有检测到显著的效力损失。没有观察到潜在的蛋白质颗粒或不可见颗粒的增加。讨论:本研究调查了abp215在稀释、延长储存和输注后的使用稳定性,这代表了最坏的处理条件。ABP 215表现出一致的产品质量和活性,在测试条件下没有观察到明显的降解。结论:abp215在推荐剂量浓度稀释、延长储存和模拟输注后仍保持理化稳定性。这支持了abp215在静脉输液袋中的预先制备和储存。
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Physicochemical stability of the bevacizumab biosimilar, ABP 215, after preparation and storage in intravenous bags
Study Objectives: To evaluate extended in-use stability of bevacizumab biosimilar, ABP 215, after dilution into intravenous bags, extended storage, and simulated infusion to enable advanced preparation and storage. Methods: Two lots of ABP 215 were diluted to high- (16.5 mg/mL) and low- (1.4 mg/mL) dose concentrations in two types of intravenous bag under ambient light conditions. Dosed intravenous bags were stored at 2°C–8°C for 35 days, followed by 30°C for 2 days, and each bag was infused on Day 37. Analysis of purity and physicochemical stability was performed using size-exclusion high-performance liquid chromatography (SE-HPLC), cation-exchange high-performance liquid chromatography (CEX-HPLC), reduced capillary electrophoresis-sodium dodecyl sulphate (rCE-SDS), subvisible particle detection assays, visual inspection, and by measuring protein concentration and potency. Results: No meaningful changes were seen in ABP 215 purity when analysed by SE-HPLC, CEX-HPLC and rCE-SDS following dilution, storage and infusion of two lots, bags, and doses. Protein concentration remained consistent throughout the study for all samples and no significant loss in potency was detected. No potentially proteinaceous particles or increases in subvisible particles were observed. Discussion: This study investigated the in-use stability of ABP 215 following dilution, extended storage, and infusion, that represent worst-case handling conditions. ABP 215 exhibited consistent product quality and activity, with no significant degradation observed under the conditions tested. Conclusion: ABP 215 retains physicochemical stability after dilution over the recommended dosing concentrations, extended storage, and simulated infusion. This supports the advance preparation and storage of ABP 215 in intravenous bags for infusion.
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