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Influence of Water on Amorphous Lidocaine.

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Water is generally regarded as a universal plasticizer of amorphous drugs or amorphous drug-containing systems. A decrease in glass-transition temperature (Tg) is considered the general result of this plasticizing effect.… Click to show full abstract

Water is generally regarded as a universal plasticizer of amorphous drugs or amorphous drug-containing systems. A decrease in glass-transition temperature (Tg) is considered the general result of this plasticizing effect. A recent study exhibits that water can increase the Tg of amorphous prilocaine (PRL) and thus shows an anti-plasticizing effect. The structurally similar drug lidocaine (LID) might show similar interactions with water, and thus an anti-plasticizing effect of water is hypothesized to also occur in amorphous LID. However, the influence of water on the Tg of LID cannot be determined directly due to the very low stability of LID in the amorphous form. It is possible to predict the Tg of LID from a co-amorphous system of PRL-LID using the Gordon-Taylor equation. Interactions were observed between PRL and LID based on the deviations between the experimental Tgs and the Tgs calculated by the conventional use of the Gordon-Taylor equation. A modified use of the Gordon-Taylor equation was applied using the optimal co-amorphous system as a separate component and the excess drug as the other component. The predicted Tg of fully hydrated LID could thus be determined and was found to be increased by 0.9 ± 0.7 K compared with the Tg of water-free amorphous LID. It could be shown that water exhibited a small anti-plasticizing effect on LID.

Keywords: plasticizing effect; water; influence water; lid; lidocaine

Journal Title: Molecular pharmaceutics
Year Published: 2022

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