A simple validated high-performance thin-layer chromatographic-densitometric analysis method for simultaneous quantitation of betulin, lupeol, stigmasterol, and β-sitosterol in Asteracantha longifolia (L.) Nees

IF 0.2 Q4 PHARMACOLOGY & PHARMACY
SadanandEknath Raval, SeemaR Saple, VikasV Vaidya
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Abstract

Background: Asteracantha longifolia (L.) Nees is an essential and versatile ingredient in traditional medicine and herbal formulations, owing to their in curing ability against numerous diseases and disorders. There are forms of utilization like hot water extract, Methanol and ethanol extracts, as well as in some eastern parts of India, the plant is used daily as a leafy vegetable for human consumption during the medical treatment2,3. Also, it is considered a nutritious fodder for cattle. With many essential vitamins and minerals, available literature also reports vital phytoconstituents like Betulin, Lupeol, Stigmasterol, and β-sitosterol as therapeutic activity enhancers for Asteracantha longifolia (L.) Nees. Standardizing these vital phytoconstituents in the raw material will control the quality of the herbal formulations, extracts, and nutritional value. Aim: To develop and validate a HPTLC method-densitometric analysis method for simultaneous quantitation of four phytoconstituents of Asteracantha longifolia (L.) Nees. Objective: The method should be simple, capable of separating Betulin, Lupeol, Stigmasterol, and β-sitosterol to simultaneously estimate the contents at 366nm and 540nm. Further, the method is validated following the guidelines laid by ICH, Q2 (R1). Materials and Methods: Precoated F254 silica gel TLC plates of Merck were utilized as stationary phase to carry out the separation in combination with n-Hexane: Ethyl acetate (8:2) as mobile phase. After development phytoconstituents were derivatized with Anisaldehyde Sulphuric Acid Reagent and TLC plates are dried at 100 °C for 3 min before visualization at 366nm and 540nm. Results: In summary, the method separates all the phytoconstituents adequately and is specific, the limit of detection–limit of quantification for betulin is 0.8 ng and 2.4 ng, lupeol is 0.3 ng and 1.02 ng, and total sterols is 0.2 ng and 0.7 ng the coefficient of variance for precision (Intraday and Interday) is Not more than (NMT) 5%, Linearity and Range is 0.5ng to 6ng, and Recovery ranges from 88.5% to 96.8%. Conclusion: It is evidential from the obtained results of the study that method is selective, sensitive, and reproducible for simultaneous analysis of Betulin, Lupeol, Stigmasterol, and β-sitosterol in Asteracantha longifolia (L.) Nees.
高效薄层色谱-密度分析同时定量长叶紫檀中白桦林、鹿皮醇、豆甾醇和β-谷甾醇的方法需要雇
背景:Asteracantha longgifolia (L.)由于具有治疗多种疾病和失调的能力,麻药是传统医药和草药配方中必不可少的通用成分。有热水提取、甲醇和乙醇提取等利用形式,在印度东部的一些地区,这种植物每天被用作有叶蔬菜,供人类在医疗期间食用2,3。此外,它被认为是牛的营养饲料。含有许多必需的维生素和矿物质,现有文献也报道了重要的植物成分,如桦木素,鹿皮醇,豆甾醇和β-谷甾醇作为长叶紫菀(L.)的治疗活性增强剂。需要雇。将原料中这些重要的植物成分标准化将控制草药配方、提取物和营养价值的质量。目的:建立高效液相色谱-密度分析法同时定量测定长叶棘四种植物成分的方法并进行验证。需要雇。目的:该方法操作简单,能够分离桦木素、鹿皮醇、豆甾醇和β-谷甾醇,并在366nm和540nm同时测定其含量。此外,根据ICH Q2 (R1)制定的指南对该方法进行验证。材料与方法:以Merck公司的F254硅胶TLC预包被板为固定相,正己烷:乙酸乙酯(8:2)为流动相进行分离。显像后,用茴香醛硫酸试剂衍生化植物成分,TLC板在100°C下干燥3 min,然后在366nm和540nm处显像。结果:该方法分离充分,专属性强,白桦林的定量检出限为0.8 ng和2.4 ng,芦皮醇为0.3 ng和1.02 ng,总甾醇为0.2 ng和0.7 ng,精密度(日内和日间)的方差系数不大于(NMT) 5%,线性范围为0.5ng ~ 6ng,回收率为88.5% ~ 96.8%。结论:本方法具有选择性、灵敏度和重复性好,可同时测定长叶紫菀中白桦林、鹿皮醇、豆甾醇和β-谷甾醇的含量。需要雇。
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