Potential Investigation of Peceol for formulation of Ezetimibe self nano emulsifyingDrug Delivery Systems

Asian Journal of Biomedical and Pharmaceutical Sciences Pub Date : 2016-04-24 DOI:10.15272/AJBPS.V6I54.803

P. Pp, K. Vaishali, Payghan Santosh

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引用次数: 14

Abstract

The present work was aimed at formulating and physicochemical characterization SNEDDS (self Nano emulsifying drug delivery system) of ezetimibe and evaluating its in vitro and in vivo potential. The solubility of both drugs was determined in excipient screening studies. Pseudoternary phase diagrams were used to evaluate the Nano emulsification existence area, composed of different surfactants, co surfactants, and oils at different surfactant to-cosurfactant (S/CoS) ratios, and the system exhibiting the largest percentage area of the self-Nano emulsifying region was selected and optimum oil ratio in the SNEDDS was selected by evaluating the clarity, precipitation and mean droplet size of the resultant Nanoemulsions. The release rate of ezetimibe was investigated using an in vitro dissolution test. In vitro dissolution studies showed that the SNEDDS composed of Peceol (20% wt/wt), Tween 80 (30% wt/wt), Ethanol (30% wt/wt), and ezetimibe (20% wt/wt) had higher initial dissolution rates for both drugs when compared with plain EZT. More importantly, EZT SNEDDS had a significantly increased dissolution profile in distilled water and pH 4.0 acetate buffer, implying enhanced bioavailability. The underlying mechanism of the loading capacity of EZT was elucidated by measurement of the zeta potential analysis. The results implied that EZT was located both in the Nanoemulsion core and the surfactant–cosurfactant layer. Comparative pharmacokinetic evaluation of EZT SNEDDS was investigated in terms of C max, tmax and AUC using rats. The SNEDDS formulation significantly increases pharmacokinetics parameter as compared with plain ezetimibe. The optimized formulation was then subjected to stability studies and was found to be stable over 6 months. Thus, the study confirmed that the SNEDDS formulation can be used as a possible alternative to traditional oral formulations of ezetimibe to improve its bioavailability

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山核桃油制备依折替米自纳米乳化给药体系的潜力研究

本研究旨在制备依泽替米贝自纳米乳化给药系统，并对其进行理化表征，评价其体外和体内潜能。两种药物的溶解度是在赋形剂筛选研究中确定的。利用伪三元相图对不同表面活性剂、助表面活性剂和不同表面活性剂/助表面活性剂(S/CoS)比的油组成的纳米乳化存在面积进行了评价，通过评价所得纳米乳液的净度、沉淀和平均液滴尺寸，选择了自纳米乳化区域面积最大的体系，并选择了SNEDDS中最佳的油比。采用体外溶出度法考察依折替米布的释放速度。体外溶出度研究表明，与普通EZT相比，由山核桃醇(20% wt/wt)、吐温80 (30% wt/wt)、乙醇(30% wt/wt)和依折替米贝(20% wt/wt)组成的SNEDDS对两种药物具有更高的初始溶出率。更重要的是，EZT SNEDDS在蒸馏水和pH为4.0的醋酸缓冲液中的溶解谱显著增加，这意味着提高了生物利用度。通过zeta电位的测量分析，阐明了EZT承载能力的潜在机制。结果表明，EZT既存在于纳米乳液核心中，也存在于表面活性剂-助表面活性剂层中。以大鼠为实验对象，以cmax、tmax和AUC对EZT SNEDDS进行比较药动学评价。与依折替米平片相比，SNEDDS制剂显著增加了药代动力学参数。然后对优化后的配方进行稳定性研究，发现其稳定性超过6个月。因此，本研究证实，SNEDDS制剂可以作为依折麦布传统口服制剂的可能替代方案，以提高其生物利用度

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Asian Journal of Biomedical and Pharmaceutical Sciences

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