Oxidation of polysorbates – An underestimated degradation pathway?

IF 5.2 2区 医学 Q1 PHARMACOLOGY & PHARMACY International Journal of Pharmaceutics: X Pub Date : 2023-07-27 DOI:10.1016/j.ijpx.2023.100202
Johanna Weber , Julia Buske , Karsten Mäder , Patrick Garidel , Tim Diederichs
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引用次数: 3

Abstract

To ensure the stability of biologicals over their entire shelf-life, non-ionic surface-active compounds (surfactants) are added to protect biologics from denaturation and particle formation. In this context, polysorbate 20 and 80 are the most used detergents. Despite their benefits of low toxicity and high biocompatibility, specific factors are influencing the intrinsic stability of polysorbates, leading to degradation, loss in efficacy, or even particle formation. Polysorbate degradation can be categorized into chemical or enzymatic hydrolysis and oxidation. Under pharmaceutical relevant conditions, hydrolysis is commonly originated from host cell proteins, whereas oxidative degradation may be caused by multiple factors such as light, presence of residual metal traces, peroxides, or temperature, which can be introduced upon manufacturing or could be already present in the raw materials. In this review, we provide an overview of the current knowledge on polysorbates with a focus on oxidative degradation. Subsequently, degradation products and key characteristics of oxidative-mediated polysorbate degradation in respect of different types and grades are summarized, followed by an extensive comparison between polysorbate 20 and 80. A better understanding of the radical-induced oxidative PS degradation pathway could support specific mitigation strategies. Finally, buffer conditions, various stressors, as well as appropriate mitigation strategies, reagents, and alternative stabilizers are discussed. Prior manufacturing, careful consideration and a meticulous risk-benefit analysis are highly recommended in terms of polysorbate qualities, buffers, storage conditions, as well as mitigation strategies.

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聚山梨酯的氧化-一个被低估的降解途径?
为了确保生物制品在整个保质期内的稳定性,添加了非离子表面活性化合物(表面活性剂)来保护生物制品免受变性和颗粒形成的影响。在这种情况下,聚山梨醇酯20和80是最常用的洗涤剂。尽管其具有低毒性和高生物相容性的优点,但特定因素正在影响聚山梨醇酯的内在稳定性,导致降解、功效丧失,甚至形成颗粒。聚山梨酯降解可分为化学水解或酶水解和氧化。在药物相关条件下,水解通常来源于宿主细胞蛋白质,而氧化降解可能由多种因素引起,如光照、残留金属痕迹的存在、过氧化物或温度,这些因素可以在生产时引入,也可以已经存在于原材料中。在这篇综述中,我们概述了目前关于聚山梨醇酯的知识,重点是氧化降解。随后,总结了不同类型和等级的氧化介导的聚山梨醇酯降解产物和关键特征,然后对聚山梨醇酯20和80进行了广泛的比较。更好地了解自由基诱导的氧化PS降解途径可以支持特定的缓解策略。最后,讨论了缓冲条件、各种压力源以及适当的缓解策略、试剂和替代稳定剂。强烈建议在生产前仔细考虑聚山梨酯的质量、缓冲液、储存条件以及缓解策略,并进行细致的风险效益分析。
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来源期刊
International Journal of Pharmaceutics: X
International Journal of Pharmaceutics: X Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
6.60
自引率
0.00%
发文量
32
审稿时长
24 days
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