The Drug Delivery and Biomaterials Group, School of Pharmacy, Medical Biology Centre, Queen's University, Belfast BT9 7BL, Northern Ireland, UK.
J Pharm Sci. 2012 Jan;101(1):200-13. doi: 10.1002/jps.22748. Epub 2011 Sep 8.
In this article, we have prepared hot-melt-extruded solid dispersions of bicalutamide (BL) using poly(ethylene oxide) (PEO) as a matrix platform. Prior to preparation, miscibility of PEO and BL was assessed using differential scanning calorimetry (DSC). The onset of BL melting was significantly depressed in the presence of PEO, and using Flory-Huggins (FH) theory, we identified a negative value of -3.4, confirming miscibility. Additionally, using FH lattice theory, we estimated the Gibbs free energy of mixing which was shown to be negative, passing through a minimum at a polymer fraction of 0.55. Using these data, solid dispersions at drug-to-polymer ratios of 1:10, 2:10 and 3:10 were prepared via hot-melt extrusion. Using a combination of DSC, powder X-ray diffractometry and scanning electron microscopy, amorphous dispersions of BL were confirmed at the lower two drug loadings. At the 3:10 BL to PEO ratio, crystalline BL was detected. The percent crystallinity of PEO was reduced by approximately 10% in all formulations following extrusion. The increased amorphous content within PEO following extrusion accommodated amorphous BL at drug to polymer loadings up to 2:10; however, the increased amorphous domains with PEO following extrusion were not sufficient to fully accommodate BL at drug-to-polymer ratios of 3:10.
本文使用聚环氧乙烷(PEO)作为基质平台,制备了比卡鲁胺(BL)的热熔挤出固体分散体。在制备之前,使用差示扫描量热法(DSC)评估了 PEO 和 BL 的混溶性。BL 熔融的起始温度在 PEO 的存在下显著降低,并且使用 Flory-Huggins(FH)理论,我们确定了-3.4 的负值,证实了混溶性。此外,使用 FH 晶格理论,我们估算了混合吉布斯自由能,结果显示为负值,并在聚合物分数为 0.55 时通过最小值。使用这些数据,通过热熔挤出法制备了药物与聚合物比例为 1:10、2:10 和 3:10 的固体分散体。通过 DSC、粉末 X 射线衍射和扫描电子显微镜的组合,在较低的两种药物载药量下确认了 BL 的无定形分散体。在 3:10 的 BL 与 PEO 比例下,检测到结晶 BL。挤出后,所有配方中 PEO 的结晶度降低了约 10%。挤出后 PEO 中增加的无定形含量在药物与聚合物负载比高达 2:10 时可容纳无定形 BL;然而,挤出后 PEO 中增加的无定形区域不足以完全容纳 3:10 的药物与聚合物比的 BL。
