Green Tea Extract Solid Dispersion Pellets with Enhanced Permeability for Hyperlipidemia

Future Pharmacology Pub Date : 2023-10-10 DOI:10.3390/futurepharmacol3040044

Vinita Patole, Pranita Gaikwad, Shashikant Kharat, Pranali Jadhav, Sanjeevani Deshkar, Prabhanjan Giram

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Abstract

Green tea extract, rich in polyphenols like catechins, has been reported to have pharmacological benefits in patients with hyperlipidemia. The minimal membrane permeability of green tea limits its use in terms of bioavailability. To improve the permeability of green tea catechins in order to enhance theiranti-hyperlipidemia activity, a surfactant-based polymer was used to formulate a solid dispersion of green tea and convert it into commercially acceptable pellets. Green tea extract solid dispersions (GTE-SDs) were prepared withsolvent evaporation method using Soluplus® as a carrier. The GTE-SDs were evaluated for ex vivo permeation studies and characterized using FTIR, DSC, and XRD for confirming the formation of SD. The GTE-SDs exhibiting enhanced ex vivo permeation of EGCG were converted into a pellet formulation using the extrusion spheronization technique while being optimized using a 32 full factorial design. Soluplus® exhibited a four-fold improvement in the ex vivo permeation of EGCG from GTE-SD pellets (33.27%) as compared to GTE (10.43%) (p-value < 0.0001). In male Wistar rats, optimized GTE-SD pellets reduced the lipid blood profiles as compared to GTE (p-value < 0.0001). Thus, GTE-SD pellets can serve as an effective drug delivery platform for hyperlipidemia.

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提高高脂血症渗透性的绿茶提取物固体分散颗粒

绿茶提取物富含儿茶素等多酚类物质，据报道对高脂血症患者有药理作用。绿茶的最低膜渗透性限制了它在生物利用度方面的使用。为了提高绿茶儿茶素的渗透性以增强其抗高血脂活性，采用表面活性剂为基础的聚合物制备了绿茶固体分散体，并将其转化为商业上可接受的颗粒。以Soluplus®为载体，采用溶剂蒸发法制备绿茶提取物固体分散体(GTE-SDs)。对GTE-SDs进行了体外渗透研究，并使用FTIR、DSC和XRD进行了表征，以确认SD的形成。GTE-SDs具有增强EGCG体外渗透的特性，使用挤压滚圆技术将其转化为颗粒制剂，同时使用32全因子设计进行优化。与GTE(10.43%)相比，Soluplus®在GTE- sd颗粒中EGCG的体外渗透(33.27%)提高了四倍(p值<0.0001)。在雄性Wistar大鼠中，与GTE相比，优化的GTE- sd颗粒降低了血脂谱(p值<0.0001)。因此，GTE-SD微丸可以作为高脂血症的有效给药平台。

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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Future Pharmacology

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