Moisture content in proteins: its effects and measurement

化学 含水量 水分 无定形固体 增塑剂 水活度 玻璃化转变 结晶 化学工程 束缚水 降级(电信) 色谱法 聚合物 有机化学 分子 岩土工程 工程类 电信 计算机科学
作者
John K. Towns
出处
期刊:Journal of Chromatography A [Elsevier BV]
卷期号:705 (1): 115-127 被引量:93
标识
DOI:10.1016/0021-9673(94)01257-f
摘要

Residual moisture content has a significant impact on the solid-state stability of biopharmaceutical products. Protein degradation due to residual moisture is minimal at or below the monolayer level of hydration owing to low availability of water and limited dynamic activity of the protein. However, residual moisture content beyond a monolayer generally results in increased rates of decomposition due to the enhanced conformational flexibility of the protein and the ability of the less tightly bound water to mobilize reactants. In addition to moisture content, the temperature and the composition of the lyophilized plug are important variables dictating the stability of proteins in the amorphous solid state. Water can act as a plasticizer to reduce the glass transition temperature Tg, of the amorphous polymer, thus an increase in temperature or plasticizer level can result in a phase transition from a dynamically constrained state to a dynamically relaxed state. The selection of excipients can have a large impact on water-protein interactions as small ions and/or crystallization of excipients can redistribute water available to the protein. Owing to the key role that water content plays in the conformational and/or chemical state of the protein, an accurate and precise moisture determination of essential in resolving stability issues. A wide variety of techniques for the determination of moisture content have been utilized, with special attention being placed on sample handling to minimize atmospheric moisture contamination.
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