纳米颗粒杂质和β-葡聚糖对蛋白质制剂稳定性的影响

Soumya Ranjan Satapathy, Rudra Narayan Sahoo, Amit Kumar Nayak
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引用次数: 0

摘要

按照现行《药品生产质量管理规范》(cGMP)和国际药用辅料理事会(IPEC)质量标准生产的药用级糖类也含有大量纳米颗粒杂质(NPI)。本综述将重点介绍 NPI 的来源、其对动态光散射 (DLS) 和内毒素测试的干扰机理、有效减少 NPI 的过滤技术、分析量化 NPI 的方法、设定阈值浓度限值的指南以及 NPI 对生物制药和基于蛋白质的制剂的治疗活性、性能和稳定性的总体影响。平均粒径为 100 到 200 纳米的 NPI 存在于糖类中,是各种化学物质的组合,如右旋糖(含有 β-葡聚糖)、灰分、无机金属盐、芳香着色剂等。这些 NPI 主要来自原料,在糖的精炼过程中无法去除。虽然人们普遍认为用 0.22 μ 消毒级过滤器过滤最终配方可以去除所有微生物和微粒,但必须注意的是,NPI 无法用这种标准的无菌过滤技术进行过滤。超过 NPI 的阈值限制会对含有蛋白质、单克隆抗体 (mAbs)、核酸和其他生物制药的制剂产生不利影响。NPIs 和 β-葡聚糖对生物分子的功能性和治疗活性有着至关重要的影响,如果其含量低于反应阈值,生物制剂的稳定性和货架期将大大提高,免疫原性反应的风险也必须显著降低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of Nano-Particulate Impurities and β-glucans on the Stability of Protein-Based Formulations.

Pharmaceutical grade sugars manufactured under Current Good Manufacturing Practice (cGMP) and complied with International Pharmaceutical Excipients Council (IPEC) quality standards, also contain a significant amount of nano-particulate impurities (NPIs). This review will focus on the origin of NPIs, the mechanism of their interference with Dynamic light scattering (DLS) and endotoxin tests, filtration technology to effectively reduce the NPIs, methodologies for analytical quantification of NPIs, guidance for setting the limits of threshold concentration and the overall impact of NPIs on the therapeutic activity, performance, stability of biopharmaceuticals and protein-based formulations. NPIs with an average particle size of 100 to 200 nm are present in sugars and are a combination of various chemicals such as dextrans (with the presence of β-glucans), ash, inorganic metal salts, aromatic colorants, etc. These NPIs primarily originate from raw materials and cannot be removed during the sugar refinement process. While it is commonly believed that filtering the final formulation with a 0.22 μ sterilizing grade filter removes all microbes and particles, it is important to note that NPIs cannot be filtered using this standard sterile filtration technology. Exceeding the threshold limit of NPIs can have detrimental effects on formulations containing proteins, monoclonal Antibodies (mAbs), nucleic acids, and other biopharmaceuticals. NPIs and β-glucans have a critical impact on the functionality and therapeutic activity of biomolecules and if present below the threshold limit of reaction, stability and shelf-life of biologics formulation will be greatly improved and the risk of immunogenic reactions must be significantly decreased.

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