Mannitol hemihydrate in lyophilized protein formulations: Impact of its dehydration during storage on sucrose crystallinity and protein stability

甘露醇 蔗糖 化学 结晶 结晶度 脱水 赋形剂 冷冻干燥 相对湿度 差示扫描量热法 色谱法 无定形固体 牛血清白蛋白 生物化学 有机化学 结晶学 热力学 物理
作者
Jayesh Sonje,Seema Thakral,Brendan M. Mayhugh,Gregory A. Sacha,Steve Nail,Jayasree Srinivasan,Raj Suryanarayanan
出处
期刊:International Journal of Pharmaceutics [Elsevier BV]
卷期号:624: 121974-121974 被引量:18
标识
DOI:10.1016/j.ijpharm.2022.121974
摘要

The high propensity of mannitol to crystallize in frozen solutions along with its high eutectic temperature enabling higher primary drying temperatures makes it a good bulking agent. In protein formulations, addition of a sugar (sucrose) that has the ability to remain amorphous throughout processing as well as storage is imperative to retain the protein in its native state. It is well known that in the presence of amorphous excipients and protein, mannitol can crystallize as a mixture of anhydrous polymorphs - α-, β- and δ-forms and a hemihydrate form [mannitol hemihydrate (MHH); C6H14O6·0.5H2O]. The conditions of formation of MHH due to processing and formulation variables are well established in the literature. However, MHH's dehydration kinetics on storage and its impact on the stability of a protein has not been systematically evaluated. The overall objective was to identify conditions (temperature and humidity) at which MHH can dehydrate on storage and the consequences of the release of associated water on sucrose phase behavior and protein stability. In a mannitol-sucrose-protein lyophile, the purpose of this study was (i) to investigate the dehydration behavior of MHH (ii) to determine the influence of dehydration on sucrose crystallization and (iii) the effect of moisture released due to MHH dehydration on model protein (Bovine serum albumin, BSA or Human serum albumin, HSA) aggregation. MHH dehydration and sucrose crystallization was observed in cases where the relative humidity was ≥ 55% (open vials). A relative humidity of ≤ 33% RH prevented MHH dehydration while retaining sucrose amorphous. No protein aggregation was observed irrespective of presence of MHH or its dehydration.
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