Design Formulation of Nanospanlastic Novel Carriers as a Promising Approach to Enhanced Bioavailability in Intranasal Drug Delivery for Sinusitis: Statistical Optimization and In vitro and In vivo Characterization

Q3 Medicine

Current Nanomedicine Pub Date : 2024-01-19 DOI:10.2174/0124681873262019231105201433

A. Chettupalli, Srivani Ajmera, M. Kuchukuntla, Venkatesan Palanivel, Sunand Katta

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引用次数: 0

Abstract

Most new biologically active chemicals require better water solubility and slower dissolution rates. Cefdinir (CFD) has a very low bioavailability in its crystalline form and is poorly soluble in water. Most new and current biologically active chemicals have poor water solubility and slow dissolution rates. Cefdinir has a very low bioavailability in its crystalline form and is poorly soluble in water. By preparing cefdinir's spanlastic nanovesicles (SNVs) using the ethanol injection method, the current study has attempted to enhance the drug's solubility and bioavailability using a statistical design approach. Independent variables, including the nonionic surfactant concentration, edge activator (EA), sonication time, SNVs entrapment effectiveness, particle size, zeta potential, PDI, and in vitro release, have been evaluated. The best CFD-SNVs have been positioned within in situ gel with mucoadhesive properties made of hydroxypropyl methylcellulose and deacetylated gellan gum. By contrasting intranasal injection of the produced gel with an IV solution, animal models have been used to investigate CFD's systemic and cerebral dynamics. Statistical analysis has suggested an ideal SNVs formulation with nonionic surfactant (65 mg), EA (15 mg), and sonication (3 min). The sol-gel temperature for forming the mucoad-hesive in situ gel containing SNVs has been found to be 34.03°C, and 18.36 minutes has been the extended mucociliary transit time. Following intranasal injection, compared to SNV dispersion, the gelling system has exhibited higher brain bioavailability (2251.9 ± 75 vs. 5281.6 ± 51%, re-spectively). The gel has also demonstrated effective drug targeting of the brain with higher direct transport percentage indices. Mucoadhesive in situ gel with CFD-loaded SNVs can be administered via the in-tranasal route. To enhance bioavailability in the brain and drug targeting from the nose to the brain, nasal in situ gel loaded with CFD-SNVs could be a new carrier to be employed in sinusitis.

查看原文本刊更多论文

纳米弹性新型载体的设计配方是提高鼻窦炎鼻内给药生物利用度的有效方法：统计优化与体内外特性分析

大多数新的生物活性化学品需要更好的水溶性和更慢的溶解速度。头孢地尼（CFD）的晶体生物利用度非常低，在水中的溶解度也很低。通过使用乙醇注射法制备头孢地尼的spanlastic纳米微粒（SNVs），本研究尝试使用统计设计方法提高药物的溶解度和生物利用度。最好的 CFD-SNV 被置于由羟丙基甲基纤维素和去乙酰化结冷胶制成的具有粘附性的原位凝胶中。统计分析表明，非离子表面活性剂（65 毫克）、EA（15 毫克）和超声（3 分钟）是理想的 SNVs 配方。研究发现，形成含有 SNVs 的粘液粘附性原位凝胶的溶胶-凝胶温度为 34.03°C，延长的粘液纤毛转运时间为 18.36 分钟。鼻内注射后，与 SNV 分散体相比，凝胶系统显示出更高的脑生物利用度（2251.9 ± 75 vs. 5281.6 ± 51%，对比）。这种凝胶还表现出了有效的脑部药物靶向性，具有更高的直接转运百分比指数。为了提高药物在大脑中的生物利用度和从鼻腔到大脑的靶向性，鼻腔原位凝胶中装载的CFD-SNVs可作为一种新的载体用于鼻窦炎的治疗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Current Nanomedicine Medicine-Medicine (miscellaneous)

CiteScore

2.00

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0.00%

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