Preformulation Study of 50% Ethanol Extract of Mangosteen Rind (Garcinia mangostana L.)

Proceedings of the 1st International Conference on Health Science, ICHS 2020, 26-27 October 2020, Jakarta, Indonesia Pub Date : 1900-01-01 DOI:10.4108/eai.26-10-2020.2311315

Sabrina Dahlizar, Y. Anggraeni, Hanny Narulita

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Abstract

. Garcinia mangostana rind containing alpha-mangostin has the potential to be used as an antioxidant. This study aimed to determine the physicochemical properties and stability of alpha-mangosteen in the 50% ethanol extract of mangosteen rind as a parameter in the pre-formulation study. Physicochemical properties were evaluated for specific and nonspecific extract parameters, determining the optimum wavelength and solubility test. The stability test was carried out at a temperature of 45±5°C with relative humidity 75±5% for 21 days, in acidic and alkaline conditions. The alpha-mangostin content was analyzed using a UV-Vis spectrophotometer. The results showed that the extract was purplish brown, has an aromatic smell, and a bitter taste. The dissolved compound in water and ethanol were 62.54±1.09% and 87.05±0,43%, respectively, the specific density of 5% extract was 1.036, loss on drying 6.66±0,11%, ash content 5.07±0.23%, ash content insoluble in acidic was 0.13±0.02%, alpha-mangosteen content in the extract was 3.85±0.03%. The solubility test showed that alpha-mangosteen in the extract has a solubility value of 1: 16064 in water. The stability test showed that the levels of alpha-mangostin decreased significantly (p≤ 0 .05) at 45±5°C and relative humidity 75±5% for 21 days. Mangosteen rind extract was unstable in the extremely acidic and alkaline conditions. Kruskal-Wallis test showed that the stability test had a significant effect as time went by ( p ≤ 0,05). The results showed that at a temperature of 45±5°C

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山竹果皮50%乙醇提取物的预配方研究

．含有α -山竹苷的山竹果皮具有抗氧化剂的潜力。本研究以山竹果皮50%乙醇提取物为参数，考察山竹果皮50%乙醇提取物中α -山竹的理化性质和稳定性。对其进行了理化性质评价，确定了最佳提取波长和溶解度试验。稳定性试验在温度为45±5℃，相对湿度为75±5%，酸性和碱性条件下进行，持续21天。用紫外-可见分光光度计分析α -山竹苷的含量。结果表明，该提取物呈紫褐色，气味芳香，味苦。水溶物含量为62.54±1.09%，乙醇溶物含量为87.05±0.43%，5%提取物比密度为1.036，干燥损失量为6.66±0.11%，灰分含量为5.07±0.23%，酸不溶灰分含量为0.13±0.02%，提取物中α -山竹果含量为3.85±0.03%。溶解度试验表明，提取液中α -山竹果在水中的溶解度值为1∶16064。稳定性试验表明，在45±5℃、75±5%的相对湿度条件下，α -山竹苷含量显著降低(p≤0.05)，持续21 d。山竹皮提取物在极酸和极碱条件下不稳定。Kruskal-Wallis检验显示，随着时间的推移，稳定性检验的效果显著(p≤0.05)。结果表明，在45±5℃的温度下

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Proceedings of the 1st International Conference on Health Science, ICHS 2020, 26-27 October 2020, Jakarta, Indonesia

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