Thermal mechanical analysis of frozen solutions of mannitol and some related stereoisomers: evidence of expansion during warming and correlation with vial breakage during lyophilization.

Journal of parenteral science and technology : a publication of the Parenteral Drug Association Pub Date : 1993-05-01

N A Williams, J Guglielmo

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Abstract

The mechanical properties of frozen mannitol, L-iditol, dulcitol, and sorbitol solutions were measured as a function of temperature during warming (after freezing) using a thermal mechanical analyzer (TMA). The mannitol sample first underwent a contractive phase starting at 30 degrees C and ending at -25 degrees C. This was followed by an initially rapid, then less rapid expansive phase which continued until melting occurred. These events provide direct evidence that mannitol solutions undergo an expansion during warming after "fast" freezing and also corroborate the vial breakage observed when mannitol solutions are frozen and thawed or freeze-dried in glass vials. Of the other stereoisomers studied, only dulcitol had an expansive phase although at a slower rate than mannitol. Its solution was found to cause vial breakage also but only at fill volumes higher than mannitol fill volumes. TMA is a useful technique for studying dimensional changes in the frozen state, with important implications for solving vial breakage problems in freeze-drying.

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甘露醇和一些相关立体异构体冷冻溶液的热力学分析:加热过程中膨胀的证据和冻干过程中小瓶破裂的相关性。

使用热力学分析仪(TMA)测量了冷冻甘露醇、l -二糖醇、dulcitol和山梨糖醇溶液在加热(冷冻后)期间的力学性能与温度的关系。甘露醇样品首先经历了一个从30℃开始到-25℃结束的收缩阶段，随后是一个最初快速的膨胀阶段，然后持续到融化。这些事件提供了直接证据，证明甘露醇溶液在“快速”冷冻后的升温过程中会发生膨胀，也证实了甘露醇溶液在玻璃小瓶中冷冻、解冻或冷冻干燥时所观察到的小瓶破裂。在研究的其他立体异构体中，只有dulcitol有膨胀相，尽管速度比甘露醇慢。它的溶液也被发现导致瓶子破裂，但只有在填充体积高于甘露醇填充体积。TMA是研究冷冻状态下尺寸变化的一种有用的技术，对解决冷冻干燥中小瓶破裂问题具有重要意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of parenteral science and technology : a publication of the Parenteral Drug Association

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