Browsing by Author "Qiu, S."
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Item Metadata only Effects of coformers on phase transformation and release profiles of carbamazepine cocrystals in hydroxypropyl methylcellulose based matrix tablets(Elsevier, 2015-02-01) Qiu, S.; Li, M.The aim of this study was to investigate the effects of coformers on phase transformation and release profiles of carbamazepine (CBZ) cocrystals in hydroxypropyl methylcellulose (HPMC) based matrix tablets. It has been found that selection of different coformers of saccharin (SAC) and cinnamic acid (CIN) can affect the stability of CBZ cocrystals in solution, resulting in significant differences in the apparent solubility of CBZ. The dissolution advantage of CBZ–SAC cocrystals can only be shown for a short period during dissolution because of the fast conversion to its dihydrate form (DH). HPMC can partially inhibit the crystallisation of CBZ DH during dissolution of CBZ–SAC cocrystal. However, the increased viscosity of HPMC dissolution medium reduced the dissolution rate of CBZ–SAC cocrystals. Therefore the CBZ–SAC cocrystal formulation did not show any significant advantage in CBZ release rate. In contrast the improved CBZ dissolution rate of CBZ–CIN cocrystal can be realised in both solution and formulation due to its high stability. In conclusion, exploring and understanding the mechanisms of the phase transformation of pharmaceutical cocrystals in aqueous medium for selection of lead cocrystals is the key for success of product development.Item Metadata only In Vitro Dissolution Studies of Immediate Release and Extended Release Formulation using Flow-through Cell Apparatus 4. Dissolution technologies(2014-05) Qiu, S.; Wang, Ke; Li, M.The aims of this study were to evaluate the dissolution performance of solid dosage forms using the open and closed modes of the FTC Apparatus 4 under different flow rates and provide examples to demonstrate the advantages of the FTC method, in particular the possibility of changing the pH during experiments, in studying the release mechanisms of extended-release products. Immediate-release (IR) paracetamol and extended-release (ER) theophylline formulations were used in this study. Results from commercially available IR paracetamol tablets using FTC Apparatus 4 have shown similar dissolution behavior in the closed and open systems, reflecting well-maintained apparent sink conditions and controlled hydrodynamics in the test cells. The flow rate of FTC Apparatus 4 significantly affected the disintegration process of IR tablets. This information can be used as a discriminating tool to support formulation development and to set quality control standards and specifications. To mimic the continuous absorption of theophylline during the passage at different pH values through the whole gastrointestinal tract, dissolution tests were conducted using FTC Apparatus 4 with pH-dependent media for three different commercially available theophylline formulations. Two formulations of Uniphyllin 200-mg tablets and Nuelin SA 175-mg tablets provided a constant release rate during the course of medium pH changes, and their release behavior was predicted with accuracy by appropriate mathematical models. However, wide intervariability and biphasic release in the dissolution profiles were found for Slo-Phyllin 125-mg capsules.