Kassem Ahmed Alaa, Abd El-Alim Sameh Hosam, Basha Mona, Salama Abeer
Pharmaceutical Technology Department, National Research Centre, Dokki, Cairo 12622, Egypt.
Pharmaceutical Technology Department, National Research Centre, Dokki, Cairo 12622, Egypt.
Eur J Pharm Sci. 2017 Mar 1;99:75-84. doi: 10.1016/j.ejps.2016.12.005. Epub 2016 Dec 18.
To enhance the oral antidiabetic effect of repaglinide (RG), a newly emerging approach, based on the combination of phospholipid complexation and micelle techniques, was employed. Repaglinide-phospholipid complex (RG-PLC) was prepared by the solvent-evaporation method then characterized using Differential scanning calorimetry (DSC), Fourier transform infrared spectroscopy (FT-IR) and X-ray powder diffraction (XPRD). The results revealed obvious disappearance of the characteristic peaks of the prepared RG-PLCs confirming the formation of drug-phospholipid complex. RG-PLC enriched micelles (RG-PLC-Ms) were prepared by the solvent-evaporation technique employing poloxamer 188 as surfactant. The prepared RG-PLC-Ms showed high drug encapsulation efficiencies (93.81-99.38%), with nanometric particle diameters (500.61-665.32nm) of monodisperse distribution and high stability (Zeta potential < -29.8mV). The in vitro release of RG from RG-PLC-Ms was pH-dependant according to the release media. A higher release pattern was reported in pH=1.2 compared to a more retarded release in pH=6.8 owing to two different kinetics of drug release. Oral antidiabetic effect of two optimized RG-PLC-M formulations was evaluated in an alloxan-induced diabetic rat model for 7-day treatment protocol. The two investigated formulations depicted normal blood glucose, serum malondialdehyde and insulin levels as well as an improved lipid profile, at the end of daily oral treatment, in contrast to RG marketed tablets implying enhanced antidiabetic effect of the drug. Hence, phospholipid-complex enriched micelles approach holds a promising potential for promoting the antidiabetic effect of RG.
为增强瑞格列奈(RG)的口服抗糖尿病效果,采用了一种基于磷脂络合和胶束技术相结合的新方法。通过溶剂蒸发法制备瑞格列奈 - 磷脂复合物(RG - PLC),然后使用差示扫描量热法(DSC)、傅里叶变换红外光谱法(FT - IR)和X射线粉末衍射法(XPRD)对其进行表征。结果显示,制备的RG - PLC的特征峰明显消失,证实了药物 - 磷脂复合物的形成。以泊洛沙姆188为表面活性剂,通过溶剂蒸发技术制备了RG - PLC富集胶束(RG - PLC - Ms)。制备的RG - PLC - Ms显示出高药物包封效率(93.81 - 99.38%),纳米粒径(500.61 - 665.32nm),单分散分布且稳定性高(Zeta电位 < -29.8mV)。根据释放介质,RG从RG - PLC - Ms的体外释放是pH依赖性的。由于药物释放的两种不同动力学,在pH = 1.2时的释放模式比在pH = 6.8时更缓慢的释放模式更高。在四氧嘧啶诱导的糖尿病大鼠模型中,对两种优化的RG - PLC - M制剂进行了为期7天治疗方案的口服抗糖尿病效果评估。在每日口服治疗结束时,与市售的RG片剂相比,所研究的两种制剂显示出正常的血糖、血清丙二醛和胰岛素水平以及改善的血脂谱,这意味着该药物的抗糖尿病效果增强。因此,磷脂复合物富集胶束方法在促进RG的抗糖尿病效果方面具有广阔的前景。
