Development and In vitro Assessment of Topical Microemulsion Based Pluronic-Lecithin Organogel for the Management of Arthritic Pain

Q3 Engineering

Micro and Nanosystems Pub Date : 2024-01-26 DOI:10.2174/0118764029280588231215044630

Abhishek Yadav, Vikas Jhawat, Rahul Pratap Singh, Sunita Chauhan, Rohit Dutt, Rajesh Goyal, Deependra Singh

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引用次数: 0

Abstract

Topical delivery of NSAIDs through organogels might transport lornoxicam to the site of action, minimizing gastrointestinal problems and adverse effects. In the current investigation, a lecithin organogel containing lornoxicam was made by microemulsion method. For this purpose, a certain amount of pure soya lecithin was dispersed in suitable isopropyl myristate as a dispersant and emulsifier at room temperature to form the oily phase. The lecithin was completely dissolved in the combination by the next morning. Sorbic acid was then added to the mixture as a preservative, Pluronic F-127 and potassium sorbate were weighed out, and then they were mixed with cold water to create an aqueous phase, and menthol was added. On the next morning, lornoxicam, the active component, became soluble in polyethylene glycol-400 and combined with the lecithin isopropyl palmitate mixture. The oily portion was agitated using a mechanical stirrer at 400 rpm while the aqueous phase was introduced gradually. The lornoxicam organogel preparation was it was assessed for its physical appearance, organoleptic characteristics, consistency, gelation temperature, drug content, and in vitro release studies. The active ingredient content of formulation F5 was the highest at 93.33. Formulations F4 and F5 were selected for kinetic studies because they had all physical characteristics under reasonable limits, the active ingredient level was the greatest, and the active ingredient release was the fastest in eight hours. The transdermal organogel formulation of lornoxicam was found to be effective for topical distribution of the drug and when administered topically, it has strong anti-inflammatory and anti-rheumatic action.

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用于治疗关节炎疼痛的基于聚uronic-卵磷脂有机凝胶的局部微乳液的开发与体外评估

通过有机凝胶局部给药非甾体抗炎药可将洛诺昔康运送到作用部位，最大限度地减少胃肠道问题和不良反应。为此，将一定量的纯大豆卵磷脂作为分散剂和乳化剂，在室温下分散于肉豆蔻酸异丙酯中，形成油相。第二天早上，卵磷脂完全溶解在混合液中。然后在混合物中加入山梨酸作为防腐剂，称出 Pluronic F-127 和山梨酸钾，然后将它们与冷水混合形成水相，并加入薄荷醇。第二天早上，活性成分洛诺昔康溶于聚乙二醇-400，并与卵磷脂棕榈酸异丙酯混合物混合。用机械搅拌器以每分钟 400 转的速度搅拌油性部分，同时逐渐加入水相。对洛诺昔康有机凝胶制剂的物理外观、感官特性、稠度、凝胶温度、药物含量和体外释放研究进行了评估。配方 F5 的有效成分含量最高，为 93.33。研究发现，洛诺昔康透皮有机凝胶制剂能有效地促进药物的局部分布，并且在局部用药时具有很强的抗炎和抗风湿作用。

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来源期刊

Micro and Nanosystems Engineering-Building and Construction

CiteScore

1.60

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0.00%

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