Nanoemulsion based In-situ Gel for ocular delivery of Brimonidine Tartrate

IF 0.3 Q4 PHARMACOLOGY & PHARMACY

Current Drug Therapy Pub Date : 2023-06-26 DOI:10.2174/1574885518666230626164030

B. Prajapati, Uma Patel, Chetna Modi, P. Kendre

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Abstract

Brimonidine tartrate is currently used to treat glaucoma; however, conventional ocular formulations have some disadvantages in terms of treating disorders like glaucoma, as less than 5% of the drug reaches a posterior segment of the eye; hence, there is a need for sustained treatment. The objective of this study was to develop a self-nanoemulsion (SNEDDS) in-situ gel of brimonidine tartrate to investigate the sustained-release effect to improve ocular bioavailability. Oil, surfactant, and co-surfactant were screened using the pseudo-ternary phase diagram (TPD) by aqueous-titration method based on the drug solubility. Nanoemulsions were evaluated for the pH, viscosity, % drug content, % transmittance, dispersibility, particle size, zeta-potential, TEM, and conductivity test. Nanoemulsion was incorporated into in-situ gel and evaluated for gelling capacity, pourability, gel strength, in vitro drug release study, and drug release kinetics. Castor oil (10%) as oil phase, Acrysol K-140 (10%) as surfactant, and PEG 400 (20%) as co-surfactant were selected in preparation of SNEDDS from TPD. Evaluation parameters of SNEDDS were found in an acceptable range. % Drug release showed the controlled release up to 8 hrs. Optimum % drug content and % CDR were 100.25% and 92.46% after 12hrs, respectively. Optimized SNEDDS in-situ gel followed the Higuchi model via diffusion mechanism having 0.99 R² value and exhibiting sustained release up to 12 hr. Stability study proved no significant changes during storage. In vitro, the ocular irritancy test proved suitable for ocular delivery. A sustained-release formulation was obtained by developing brimonidine tartrate SNEDDS in-situ gel as a stable formulation without irritancy during ocular administration.

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酒石酸布里莫尼定眼用纳米乳液原位凝胶

酒石酸布里莫尼定目前用于治疗青光眼；然而，传统的眼部制剂在治疗青光眼等疾病方面有一些缺点，因为只有不到5%的药物到达眼睛后部；因此，需要持续治疗。本研究的目的是开发酒石酸溴莫尼定的自纳米乳液（SNEDDS）原位凝胶，以研究其对提高眼睛生物利用度的缓释作用。以药物溶解度为基础，采用水滴定法，采用拟三元相图（TPD）对油、表面活性剂和助表面活性剂进行了筛选。对纳米乳液的pH、粘度、%药物含量、%透射率、分散性、粒度、ζ电位、TEM和电导率测试进行了评估。将纳米乳液掺入原位凝胶中，并评估凝胶容量、可倾倒性、凝胶强度、体外药物释放研究和药物释放动力学。选择蓖麻油（10%）为油相，Acrysol K-140（10%）作为表面活性剂，PEG400（20%）作为共表面活性剂从TPD制备SNEDDS。SNEDDS的评估参数在可接受范围内。%药物释放在8小时内显示出控制释放。12小时后，最佳药物含量和%CDR分别为100.25%和92.46%。优化的SNEDDS原位凝胶通过扩散机制遵循Higuchi模型，具有0.99 R²的值，并表现出长达12小时的持续释放。稳定性研究证明，在储存过程中没有显著变化。在体外，眼部刺激性测试被证明适用于眼部递送。通过开发酒石酸溴莫尼定SNEDDS原位凝胶作为一种在眼部给药过程中没有刺激性的稳定制剂，获得了一种缓释制剂。

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来源期刊

Current Drug Therapy PHARMACOLOGY & PHARMACY-

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： Current Drug Therapy publishes frontier reviews of high quality on all the latest advances in drug therapy covering: new and existing drugs, therapies and medical devices. The journal is essential reading for all researchers and clinicians involved in drug therapy.