Self-Emulsifying Drug Delivery System of Simvastatin: Formulation Development, Optimization by Box- Behnken Design, In-Vitro and In-Situ Single-Pass Intestinal Perfusion (SPIP) Studies.

Q3 Pharmacology, Toxicology and Pharmaceutics Recent Patents on Drug Delivery and Formulation Pub Date : 2018-01-01 DOI:10.2174/1872211312666181022150435

Madhu Verma, Arun Nanda, Yatendra Kumar

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引用次数: 4

Abstract

Purpose: The purpose of the study was formulation development, optimization and evaluation of a Self-Emulsifying Drug Delivery System (SEDDS) of Simvastatin (SIM) for improvement in dissolution and bioavailability of SIM. Solubility enhancement of Biopharmaceutical Classification System (BCS) Class-II drugs is a burning topic and attracting various publications and patents regarding different strategies employed for improvement of dissolution viz., USOO5340591A (Solid dispersion), US005472954A, US005646131A (complexation), USOO5858410A (Nanosuspensions), USOO5874029A (micronization) US2008.00095O2A1 (Solid composites), US2008O146640A1 (Prodrug) US 2009001 1009 A1 (nanocapsules), etc. Methods: SEDDS was prepared on the basis of solubility studies employing Capmul MCM EP as lipid and Cremophor ELP as surfactant. Box-Behnken design was implemented for optimization by using lipid concentration, surfactant concentration and mixing time as dependent variables and their impact was observed on particle size, poly dispersity index (PDI) and drug released in 15min. Optimized formulation was evaluated for particle size, PDI, zeta potential, emulsification time, transmittance, invitro drug release and in situ Single-Pass Intestinal Perfusion (SPIP) studies.

Results: For optimized formulation, OF1 value of particle size, PDI, zeta potential, emulsification time, transmittance and percent in-vitro release were 162±14.32nm, 0.19±0.01, -22.3 ±1.1mV, 93±3.11 sec, 99.45±4.35 % and 99.43± 5.6 % in 30 min respectively. In-situ SPIP studies were performed on Wistar rats and the value of predicted fraction absorbed for humans was found to be 0.98.

Conclusion: SIM SEDDS was successfully developed and evaluated for in-vitro & in-vivo parameters. All the evaluated parameters were in tolerable limits. In vitro release studies from optimized formulation, OF1, exhibited maximum drug release when compared to SIM API and marketed preparation. Moreover, the predicted value of fraction absorbed (Fa) in humans by in-situ SPIP method was also in agreement with in-vitro dissolution studies thus, confirming SEDDS as a suitable drug delivery system for solubility enhancement of SIM.

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辛伐他汀自乳化给药系统:处方开发、Box- Behnken设计优化、体外和原位单次肠灌注(SPIP)研究。

目的:研究辛伐他汀(SIM)自乳化给药系统(SEDDS)的处方开发、优化和评价，以提高SIM的溶出度和生物利用度。生物制药分类系统(BCS) ii类药物的溶解度增强是一个热门话题，吸引了各种关于改善溶出度的不同策略的出版物和专利，即USOO5340591A(固体分散体)，US005472954A, US005646131A(络合)，USOO5858410A(纳米悬悬液)，USOO5874029A(微化)，US2008.00095O2A1(固体复合材料)，US2008O146640A1 (Prodrug)， US 2009001 1009 A1(纳米胶囊)等。方法:以Capmul MCM EP为脂质，Cremophor ELP为表面活性剂，在溶解度研究的基础上制备SEDDS。以脂质浓度、表面活性剂浓度和混合时间为因变量，采用Box-Behnken设计进行优化，观察其对颗粒粒径、聚分散指数(PDI)和15min药物释放量的影响。对优化后的配方进行粒径、PDI、zeta电位、乳化时间、透光率、体外药物释放和原位单次肠灌注(SPIP)研究。结果:优化处方的粒径、PDI、zeta电位、乳化时间、透光率和体外释放率在30 min内的OF1值分别为162±14.32nm、0.19±0.01、-22.3±1.1mV、93±3.11 sec、99.45±4.35%和99.43±5.6%。对Wistar大鼠进行了原位SPIP研究，发现人体吸收的预测分数为0.98。结论:SIM - SEDDS的研制成功，并对其体外和体内参数进行了评价。所有评价参数均在容许范围内。与SIM API和上市制剂相比，优化制剂OF1的体外释放研究显示出最大的药物释放。此外，原位SPIP法对人体吸收分数(Fa)的预测值也与体外溶出度研究结果一致，从而证实了SEDDS是一种适合增强SIM溶解度的给药系统。

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Recent Patents on Drug Delivery and Formulation Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science

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2.30

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0.00%

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期刊介绍： Recent Patents on Drug Delivery & Formulation publishes review and research articles, drug clinical trial studies and guest edited thematic issues on recent patents on drug delivery and formulation. A selection of important and recent patents on drug delivery and formulation is also included in the journal. The journal is essential reading for all researchers involved in the fields of drug delivery and formulation. The journal also covers recent research (where patents have been registered) in fast emerging therapeutic areas/targets & therapeutic agents related to drug delivery and formulations.

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