海藻酸钙- neusilin US2纳米复合微珠用于口服缓释水溶性药物乙酰氯芬酸钠。

Journal of drug delivery Pub Date : 2015-01-01 Epub Date: 2015-02-23 DOI:10.1155/2015/826981
Manjanna Kolammanahalli Mallappa, Rajesh Kesarla, Shivakumar Banakar
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引用次数: 22

摘要

本研究的目的是制备和研究海藻酸钙(CA-) Neusilin US2纳米复合微珠,该微珠含有乙酰氯芬酸钠(ACF-Na)液体微乳(L-ME)预浓缩物,以提高口服生物利用度。以Labrafac PG、Labrasol和Span 80分别作为油、表面活性剂和助表面活性剂制备L-ME预浓缩物。以海藻酸钠(SA)为胶凝剂,Neusilin US2为吸附剂,氯化钙为交联剂,采用微乳化内胶凝技术制备了L-ME固体CA纳米复合微珠。L-ME具有良好的热力学稳定性;微球尺寸为32.4 nm,多分散性指数为0.219,zeta电位为-6.32 mV。FT-IR、DSC和XPRD均未观察到制剂中辅料与药物的明显相互作用。SA和Neusilin US2的浓度影响其流动特性、平均粒径、机械强度、药物包封效率和药物释放率。所有制剂在pH为1.2的模拟胃液(SGF)中最初2小时的药物释放最小,在pH为6.8的磷酸盐缓冲液(PBS)中6小时的药物释放最大,随后在pH为7.4的模拟肠液(SIF)中持续12小时。SA与Neusilin US2相互作用形成厚的触变凝胶网络结构,作为控制药物在碱性环境下释放的屏障。Neusilin US2是一种新型的填充剂,用于将L-ME转化为固体纳米复合微珠,以提高水溶性差药物的溶出速度,并延长药物释放时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Calcium Alginate-Neusilin US2 Nanocomposite Microbeads for Oral Sustained Drug Delivery of Poor Water Soluble Drug Aceclofenac Sodium.

Calcium Alginate-Neusilin US2 Nanocomposite Microbeads for Oral Sustained Drug Delivery of Poor Water Soluble Drug Aceclofenac Sodium.

Calcium Alginate-Neusilin US2 Nanocomposite Microbeads for Oral Sustained Drug Delivery of Poor Water Soluble Drug Aceclofenac Sodium.

Calcium Alginate-Neusilin US2 Nanocomposite Microbeads for Oral Sustained Drug Delivery of Poor Water Soluble Drug Aceclofenac Sodium.

The aim of the present study was to formulate and investigate the calcium alginate- (CA-) Neusilin US2 nanocomposite microbeads containing preconcentrate of aceclofenac sodium (ACF-Na) liquid microemulsion (L-ME) for enhancement of oral bioavailability. The preconcentrate L-ME is prepared by using Labrafac PG, Labrasol, and Span 80 as oil, surfactant, and cosurfactant, respectively. The solid CA nanocomposite microbeads of L-ME prepared by microemulsification internal gelation technique using sodium alginate (SA) gelling agent, Neusilin US2 as adsorbent, and calcium chloride as crosslinking agent. L-ME has good thermodynamic stability; globule size was found to be 32.4 nm with polydispersity index 0.219 and -6.32 mV zeta potential. No significant interactions of excipients, drug in the formulations observed by FT-IR, DSC and XPRD. The concentration of SA and Neusilin US2 influences the flow properties, mean particle size, mechanical strength, drug entrapment efficiency, and percentage of drug release. All the formulations show minimum drug release in simulated gastric fluid (SGF) pH 1.2 for initial 2 h, maximum drug release in pH 6.8 phosphate buffer solution (PBS) at 6 h, followed by sustaining in simulated intestinal fluid (SIF) of pH 7.4 up to 12 h. The interaction of SA with Neusilin US2 creates a thick thixotropic gel network structure which acts as barrier to control the release of drug in the alkaline pH environment. Neusilin US2 is a novel filler used to convert L-ME into solid nanocomposite microbeads to enhance dissolution rate of poor water soluble drugs sustaining the drug release for prolonged period of time.

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Journal of drug delivery
Journal of drug delivery PHARMACOLOGY & PHARMACY-
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