A Comparative Study of Anti-elastase Activity of Extract, Extract-loaded Nanoparticle, and Serum Gels of Indonesian Bilberry Leaves

Asian Journal of Research in Medical and Pharmaceutical Sciences Pub Date : 2024-07-20 DOI:10.9734/ajrimps/2024/v13i3264

Kosasih Kosasih, Ananta Altriyuana, Zainur Rahman Hakim

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Abstract

Aims: To do a comparative study of the anti-elastase activity of the extract, extract-loaded gelatin nanoparticles, and serum gels of Indonesian Bilberry leaves. Methods: Extraction of the leaves used the maceration method with 70% ethanol at a pH of 2 and dried using a rotavapor and an oven. The dry extracts were phytochemical screened and tested for specific and non-specific parameters. The synthesis of gelatin nanoparticles used the desolvation method with polymer gelatin and cross-linker glutaraldehyde, and then they were characterized. The extracts and the gelatin nanoparticles were formulated into serum gels and evaluated for physical, chemical, and anti-elastase activity at 40°C for six weeks. The extracts, nanoparticles, and formulations were assayed for anti-elastase activity at 410 nm. Results: The extracts met standards, while the nanoparticles showed particle sizes of 174.7 nm, polydispersity index of 0.34, zeta potential of 2.82 mV, entrapment efficiency of 38.6%, aldimine on FTIR, and shape of stacked nanoparticles. The anti-elastase activity of the extract was 49.37 ppm, while the nanoparticles were 72.92 ppm, respectively. In addition, the serum gels of F1 were 117.92 ppm, and F2 were 142.92 ppm. F1 and F2 were stable during storage. It is still possible to enhance the activity of the serum gels, such as by increasing the addition of actives. Conclusion: The extract, gelatin nanoparticles, and serum gels of F1 and F2 have anti-elastase activity in the potent category for the extract and nanoparticles, while moderate category for F1 and F2. The serum gels are physicochemically stable during storage.

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印度尼西亚山桑子叶提取物、提取物负载纳米粒子和血清凝胶抗弹性蛋白酶活性的比较研究

目的：比较研究印度尼西亚山桑子叶提取物、提取物负载明胶纳米颗粒和血清凝胶的抗弹性蛋白酶活性。方法：采用浸渍法提取印尼山桑子叶：在 pH 值为 2 的条件下，用 70% 的乙醇浸泡法提取山桑子叶，然后用旋转蒸气和烘箱烘干。对干提取物进行植物化学筛选，并检测其特异性和非特异性参数。明胶纳米粒子的合成采用了聚合物明胶和交联剂戊二醛的脱溶法，然后对其进行了表征。将提取物和明胶纳米粒子配制成血清凝胶，并在 40°C 下进行为期六周的物理、化学和抗弹性蛋白酶活性评估。在 410 纳米波长下检测提取物、纳米颗粒和配方的抗弹性蛋白酶活性。结果显示提取物符合标准，而纳米颗粒的粒径为 174.7 nm，多分散指数为 0.34，zeta 电位为 2.82 mV，夹带效率为 38.6%，傅立叶变换红外光谱显示为醛二胺，形状为堆叠纳米颗粒。提取物的抗弹性蛋白酶活性为 49.37 ppm，纳米颗粒的抗弹性蛋白酶活性为 72.92 ppm。此外，F1 的血清凝胶含量为 117.92 ppm，F2 为 142.92 ppm。F1 和 F2 在贮存期间保持稳定。仍有可能提高血清凝胶的活性，例如增加活性物质的添加量。结论F1和F2的提取物、明胶纳米颗粒和血清凝胶的抗弹性蛋白酶活性在提取物和纳米颗粒中属于强效类，而在F1和F2中属于中效类。血清凝胶在储存过程中理化性质稳定。

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Asian Journal of Research in Medical and Pharmaceutical Sciences

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