Development and Ex vivo evaluation of Rasagiline Mesylate mucoadhesive microemulsion for intranasal delivery using Box-Behnken design

International Journal of Bio-Pharma Research Pub Date : 2019-03-04 DOI:10.21746/APS.2018.8.3.4

Krishnaveni Janapareddi, A. Kandhula

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引用次数: 2

Abstract

Rasagiline mesylate (RM), an irreversible, selective inhibitor of MAO-B enzyme, is used in the treatment of Parkinson’s disease as oral tablets. It has low oral bioavailability (36%) due to hepatic first pass metabolism. Oral route of administration is associated with nausea and vomiting. Hence present research work was aimed to develop intranasal RM- loaded mucoadhesive microemulsions for brain targeting via olfactory pathway. The microemulsions were developed using Box Behnken design and evaluated for globule size, PDI, Zeta potential, pH, viscosity and ex vivo permeation on excised porcine nasal mucosa. Based on drug solubility, Capmul MCM, Tween 20 and Transcutol P were selected as oil, surfactant and cosurfactant respectively. Microemulsions were prepared by water titration method. Pseudoternary phase diagrams were constructed and the levels of surfactants, oil were selected. The influence of independent variables such as oil, Smix and water on responses size, zeta potential and flux were studied with the help of polynomial equations, contour plots and 3D response surface plots generated by design expert software. Optimized microemulsion formulation (ME18) was composed of oil (Capmul MCM), Smix (Tween 20: Transcutol P; 1:1), water and drug in the ratio 5:42:65:5.The globule size, zeta potential and flux of the optimized microemulsion was 150 nm, -29.6 mV and 291.7 μg/cm2/h respectively. Mucoadhesive agent (Chitosan) was added at 0.5% concentration to optimized microemulsion formulation (MME18). The size, zeta potential and flux of the MME18 was 176.4 nm, 12.1 mV and 323.1 μg/cm2/h respectively. The flux of ME18 and MME 18 was significantly higher than drug solution. The enhancement ratio of MME 18 was 4.2 times to that of drug solution, indicating potential advantage of microemulsion formulation.

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Box-Behnken设计甲磺酸雷沙吉兰黏附微乳鼻内给药的研制及体外评价

由于肝脏首过代谢，口服生物利用度较低(36%)。口服给药可引起恶心和呕吐。因此，本研究旨在开发经鼻经嗅觉途径靶向脑的含RM的黏附微乳。采用Box Behnken设计研制微乳，并对微乳的粒径、PDI、Zeta电位、pH值、黏度和体外对猪鼻黏膜的渗透性进行评价。根据药物溶解度，选择Capmul MCM、Tween 20和Transcutol P分别作为油、表面活性剂和助表面活性剂。采用水滴定法制备微乳。建立了伪三元相图，选择了表面活性剂、油的含量。利用多项式方程、等高线图和设计专家软件生成的三维响应面图，研究了油、Smix和水等自变量对响应尺寸、zeta电位和通量的影响。优化后的微乳液配方(ME18)由油(Capmul MCM)、Smix (Tween 20: Transcutol P;1:1)，水和药物的比例为5:42:65:5。优化后的微乳液粒径为150 nm, zeta电位为-29.6 mV，通量为291.7 μg/cm2/h。优化后的微乳液配方(MME18)中加入0.5%浓度的黏合剂(壳聚糖)。MME18的粒径为176.4 nm, zeta电位为12.1 mV，通量为323.1 μg/cm2/h。ME18和mme18的通量显著高于药物溶液。mme18对药物溶液的增强率为4.2倍，说明微乳制剂具有潜在的优势。

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International Journal of Bio-Pharma Research

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