长效温粘甲硝唑阴道凝胶的研制

Q4 Pharmacology, Toxicology and Pharmaceutics

INDIAN DRUGS Pub Date : 2023-07-03 DOI:10.53879/id.60.06.13069

Azima G. Munshi, M. Goyani, Meghraj V. Suryawanshi

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引用次数: 0

摘要

开发一种具有黏附性和热敏性的甲硝唑原位凝胶是本研究对抗细菌性阴道病的目的。许多评价标准已被执行，包括黏力、pH、粘度、注射器容量、药物含量、凝胶温度和凝胶时间。所有溶液的pH值都在6-7之间。黏度与黏附力呈正相关。药物释放参数表明，与其他聚合物相比，含有Carbopol 934的原位凝胶具有更好的药物释放。此外，Carbopol 934的粘接强度比HEC和HPMC高118 g。与HPMC和HEC等非离子型聚合物相比，Carbopol 934由于是一种阳离子聚合物，可以有效减缓药物释放。经过30天的稳定性测试，凝胶的性能几乎没有变化。由此可见，研制的甲硝唑原位凝胶比早期阴道凝胶更可靠、更有效。

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FORMULATION AND DEVELOPMENT OF LONG-ACTING THERMOSENSITIVE AND MUCOADHESIVE VAGINAL GEL OF METRONIDAZOLE

The development of an in situ metronidazole gel that is mucoadhesive and thermo sensitive was the aim of this study in the fight against bacterial vaginosis. Numerous evaluation criteria have been carried out, including mucoadhesive force, pH, viscosity, syringe capability, medication content, gelation temperature, and gelation time. All of the solutions were found to have pH values between 6-7. The viscosity was correlated with the mucoadhesive force. The drug release parameter indicates that in situ gels containing Carbopol 934 provide superior drug release compared to other polymers. Additionally, Carbopol 934 has 118 g more mucoadhesive strength than HEC and HPMC. Compared to non-ionic polymers like HPMC and HEC, Carbopol 934 effectively slows down drug release since it is a cationic polymer. After a 30-day stability test, the gel’s properties barely changed. It follows that the developed formulation of metronidazole in situ gels is more reliable and efficient than earlier vaginal gels.

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来源期刊

INDIAN DRUGS Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science

CiteScore

0.30

自引率

0.00%

发文量