Development of a Novel Self-Dissolving Microneedle-Assisted Percutaneous Delivery System of Diacerein through Solid Dispersion Gel: Solubility Enhancement, Proof of Anti-inflammatory Activity and Safety.

IF 2.8 4区医学 Q2 PHARMACOLOGY & PHARMACY

Current drug delivery Pub Date : 2023-01-01 DOI:10.2174/1567201819666220629123058

Maryam Shabbir, Kashif Barkat, Muhammad Umer Ashraf, Uzair Nagra

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引用次数: 4

Abstract

Background: Diacerein, an osteoarthiritis drug, experiences slow topical permeation due to limited solubility. Additionally, it shows a laxative effect due to acid/base hydrolysis of the drug in the colon.

Objective: Diacerein solubility was improved to increase percutaneous drug delivery.

Methods: To improve saturation solubility of the drug, Diacerein was pre-treated with Polysorbate 80 aqueous solution (1% v/v) to obtain lyophilized powder after wet milling or formulated as solid dispersion using PEG 4000 by fusion method. The lyophilized Diacerein in hydroxypropyl methylcellulose (HPMC 8% w/w) and polyvinyl pyrrolidone (PVP 30% w/w) matrix, with PEG 400 as co-solvent, provided an optimized array. The solid dispersion was loaded in the CMC based gel for subsequent administration on dissolving microneedle-treated skin.

Results: The addition of PEG 400 increased Diacerein loading in microneedles to 390.35±4.28 μg per array. The lyophilized drug displayed amorphous characteristics in the dissolving microneedles as per XRD analysis. SEM photographs showed uniformity in the surface topology of microneedles. The needles showed rapid polymer dissolution within 5 minutes, whereas methylene-blue distribution confirmed the formation of microcavities in excised rat skin. The drug-loaded arrays showed better permeation (74.39%) and skin deposition (15.75%) after 24 hours, however, ⁓12% of Diacerein remained in the baseplate. This led to the tailoring of CMC-based gel (3% w/v) containing 0.4% solid dispersion of Diacerein. When compared to untreated skin, the gel improved permeation rate by 2.43 folds through aqueous microchannels generated by dissolving microneedle pre-treatment and allowed 98% drug permeation. The quasi-Fickian diffusion mechanism was found to drive ex vivo release kinetics, with a shorter lag time (0.88 h) and higher flux (26.65 μg/sq.cm.h). Microneedle-assisted Diacerein gel showed a positive anti-inflammatory effect in the paw edema model and reduced diarrheal episodes in comparison to the marketed oral formulation. The gel showed desired characteristics at 5°C±2°C when tested under accelerated stability conditions.

Conclusion: The present study reports for the first time the verification of efficacy and safety to advocate the suitability of Diacerein for percutaneous delivery through dissolving microneedle-treated skin.

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一种新型自溶微针辅助经皮固体分散凝胶给药系统的开发:溶解度增强，抗炎活性证明和安全性。

背景:地黄素，一种骨关节炎药物，由于溶解度有限，局部渗透缓慢。此外，由于药物在结肠中的酸/碱水解，它显示出通便作用。目的:提高二黄芩苷的溶解度，增加经皮给药。方法:为提高药物的饱和溶解度，采用聚山梨酯80水溶液(1% v/v)预处理，湿磨后得到冻干粉或PEG 4000熔融配制成固体分散体。以聚乙二醇400为共溶剂，以羟丙基甲基纤维素(HPMC 8% w/w)和聚乙烯吡罗烷酮(PVP 30% w/w)为基质，冻干的二乙酰甲苷为优化阵列。将固体分散体装入CMC基凝胶中，用于溶解微针处理过的皮肤。结果:PEG 400的加入可使微针中Diacerein的载量达到390.35±4.28 μg /个阵列。经XRD分析，冻干后的药物在溶解微针中表现出无定形特征。SEM照片显示微针的表面拓扑结构均匀。针头显示聚合物在5分钟内快速溶解，而亚甲蓝分布证实了在切除的大鼠皮肤中形成微腔。24小时后，载药阵列具有较好的透性(74.39%)和皮肤沉积(15.75%)，但仍有⁓12%的硅黄酮残留在底板中。这导致裁剪cmc基凝胶(3% w/v)，其中含有0.4%的二乙胺固体分散体。与未处理皮肤相比，凝胶通过溶解微针预处理产生的水微通道的渗透率提高了2.43倍，药物渗透率达到98%。准菲克扩散机制驱动体外释放动力学，具有较短的滞后时间(0.88 h)和较高的释放通量(26.65 μg/sq.cm.h)。微针辅助Diacerein凝胶在足跖水肿模型中显示出积极的抗炎作用，与市场上销售的口服制剂相比，减少了腹泻发作。在加速稳定性条件下，凝胶在5°C±2°C时表现出所需的特性。结论:本研究首次报道了双萘乙胺的有效性和安全性验证，倡导双萘乙胺通过溶解微针治疗皮肤经皮给药的适宜性。

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 drug delivery PHARMACOLOGY & PHARMACY-

CiteScore

5.10

自引率

4.20%

发文量

170

期刊介绍： Current Drug Delivery aims to publish peer-reviewed articles, research articles, short and in-depth reviews, and drug clinical trials studies in the rapidly developing field of drug delivery. Modern drug research aims to build delivery properties of a drug at the design phase, however in many cases this idea cannot be met and the development of delivery systems becomes as important as the development of the drugs themselves. The journal aims to cover the latest outstanding developments in drug and vaccine delivery employing physical, physico-chemical and chemical methods. The drugs include a wide range of bioactive compounds from simple pharmaceuticals to peptides, proteins, nucleotides, nucleosides and sugars. The journal will also report progress in the fields of transport routes and mechanisms including efflux proteins and multi-drug resistance. The journal is essential for all pharmaceutical scientists involved in drug design, development and delivery.