Effect of phosphatidylcholine in bentonite-quetiapine complex on enhancing drug release and oral bioavailability
[Display omitted] •The effect of phosphatidylcholine (PC) on improving the incomplete release of drugs from the bentonite (BT)-drug complex was investigated.•PC and quetiapine (QTP), a model drug were successfully intercalated into BT interlayer space in an amorphous state.•PC improved the release o...
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Veröffentlicht in: | International journal of pharmaceutics 2022-11, Vol.628, p.122347-122347, Article 122347 |
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Sprache: | eng |
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•The effect of phosphatidylcholine (PC) on improving the incomplete release of drugs from the bentonite (BT)-drug complex was investigated.•PC and quetiapine (QTP), a model drug were successfully intercalated into BT interlayer space in an amorphous state.•PC improved the release of QTP from the BT complex without disrupting the pH-dependent release property of BT.•The optimum amount of PC significantly enhanced oral bioavailability of poorly water-soluble QTP by facilitating the dissolution.
Bentonite (BT) is a biocompatible clay mineral that has advantageous properties as a pharmaceutical excipient. However, the application of BT in controlled-release oral formulations has been challenging due to incomplete drug release from BT-drug complexes. The objective of this study was to investigate the effect of modifying BT with zwitterionic phosphatidylcholine (PC) to enhance the dissolution of drugs, thereby increasing their oral bioavailability. Quetiapine (QTP) was chosen as a model drug, and the composition of the complex (BT-PC-QTP) was optimized to have the maximum QTP content and increase the total amount of QTP released. The in vitro release study showed that the incorporation of an appropriate amount of PC into BT improved the low release rate of the BT-QTP complex at pH 7.4, while the pH-dependent release property of BT was maintained. In an in vivo pharmacokinetic study in rats, the oral administration of the BT-PC-QTP complex showed significantly higher Cmax and AUC values than the BT-QTP complex. Moreover, BT-PC-QTP showed a 2.4-fold enhancement of oral bioavailability compared to the QTP powder group. The scanning electron microscopy (SEM), powder X-ray diffraction (pXRD), and differential scanning calorimetry (DSC) studies confirmed that the intercalation of PC and QTP into BT resulted in the adsorption of QTP in an amorphous state. The characterization of the nanoparticles generated from the BT-PC-QTP complex supported that PC enhanced the dissolution of QTP by forming nanosized PC particles. Taken together, the modification of BT with PC can be applied in pharmaceutical industry as a platform strategy to control the release of the BT-drug complex and enhance the oral bioavailability of poorly water-soluble drugs. |
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ISSN: | 0378-5173 1873-3476 |
DOI: | 10.1016/j.ijpharm.2022.122347 |