Formulation Development and Characterization of Lumefantrine Solid Dispersion with Piperine for Solubility Enhancement

Rajendra R Khade, S. Butle
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Abstract

Lumefantrine low/variable bioavailability with low aqueous solubility is associated with their crystallinity and P-glycoprotein (P-gp) mediated efflux. Herein, to improve the dissolution and hence the oral bioavailability, amorphous solid dispersions (SD) of lumefantrine (LUMF) containing piperine (PIP), a P-gp and CYP3A4 inhibitor, were prepared with Copovidone/Kollidon® VA 64 (KOL) at three different ratios with increasing content of the polymer. The PIP-LUMF-KOL SD at ratio of 1:6:18 demonstrated higher aqueous solubility of LUMF and hence were characterized by DSC, FTIR and XRD. The improved dissolution resulting due to loss of crystallinity of LUMF was confirmed by DSC thermogram and XRD diffractogram of LUMF-PIP-SD while FTIR studies investigated the possible intermolecular interactions between LUMF and PIP and /or KOL. DSC and dissolution experiments validated the stability of LUMFPIP- Sol SD for 90 days under stressed humidity and temperature conditions. Overall, the data suggest that the SD of LUMF incorporated with P-gp inhibitor PIP, enhances dissolution and hence could improve the bioavailability of LUMF.
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含哌啶的鲁米凡林固体分散体的制剂开发与特性分析--用于提高溶解度
卢曼芬特林的生物利用度低/可变,水溶性低,这与它们的结晶性和P-糖蛋白(P-gp)介导的外流有关。在此,为了改善溶解度,从而提高口服生物利用度,我们用 Copovidone/Kollidon® VA 64 (KOL) 制备了含有哌啶(PIP)(一种 P-gp 和 CYP3A4 抑制剂)的卢美范群(LUMF)的无定形固体分散体 (SD),聚合物的含量越高,其配比越不同。比例为 1:6:18 的 PIP-LUMF-KOL SD 显示出 LUMF 更高的水溶性,因此通过 DSC、FTIR 和 XRD 对其进行了表征。LUMF-PIP-SD 的 DSC 热图和 XRD 衍射图证实了 LUMF 的结晶度降低导致溶解度提高,而 FTIR 研究则调查了 LUMF 与 PIP 和/或 KOL 之间可能存在的分子间相互作用。DSC 和溶解实验验证了 LUMFPIP- Sol SD 在受压湿度和温度条件下 90 天的稳定性。总之,这些数据表明,LUMF 的 SD 与 P-gp 抑制剂 PIP 结合可提高溶解度,从而改善 LUMF 的生物利用度。
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