Impact of Polymers on the Kinetics of the Solid-State Phase Transition of Piracetam Polymorphs – PubMed Black Hawk Supplements
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Metastable polymorphs of active pharmaceutical ingredients can occasionally be used to enhance bioavailability or make processing more convenient. However, the thermodynamic instability of metastable polymorphs poses a severe threat to the quality and performance of the drug products. In this study, we used hot-stage microscopy and powder X-ray diffraction to quantitatively analyze the kinetics of the solid-solid phase transition of piracetam (PCM) polymorphs in the absence and presence of…
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Impact of Polymers on the Kinetics of the Solid-State Phase Transition of Piracetam Polymorphs
Fanfan Fan et al. Mol Pharm. .
Abstract
Metastable polymorphs of active pharmaceutical ingredients can occasionally be used to enhance bioavailability or make processing more convenient. However, the thermodynamic instability of metastable polymorphs poses a severe threat to the quality and performance of the drug products. In this study, we used hot-stage microscopy and powder X-ray diffraction to quantitatively analyze the kinetics of the solid-solid phase transition of piracetam (PCM) polymorphs in the absence and presence of several polymeric excipients. The Forms I and II of PCM are enantiotropically related polymorphs, and the transition point is 75 °C. We found that 1 wt % polymer can strongly affect the transformation rate of Form II to Form I of PCM above 75 °C. PVP K30 has the highest Tg and the strongest inhibitory effect on the transition, whereas PEG has the lowest Tg and the weakest effect on the transition. Below 75 °C, the addition of 1 wt % PEG can decrease the transformation rate from Form I to Form II of PCM by a few orders of magnitude, whereas no phase transition occurs in the presence of the other investigated polymers. The inhibitory effects of the same concentration of polymers on the kinetics of the solid-solid phase transition of piracetam polymorphs are considerably greater than those on the crystallization of PCM from the amorphous phase, especially at low temperatures. We propose that the low segmental mobility of polymers enriched between the crystalline phases can considerably inhibit the nucleation and growth of the stable form at the interface during the phase transition. Our findings deepen the current understanding of the mechanisms underlying the solid-state phase transition of polymorphic drugs in the presence of polymeric excipients, providing a promising formulation approach for stabilizing the metastable pharmaceutical polymorphs.
Keywords: piracetam; polymer; polymorphic phase transition kinetics; polymorphs; solid−solid phase transition.
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