[Rapid determination of aesculin and aesculetin in Fraxini Cortex by high performance liquid chromatography-ultraviolet at equal absorption wavelength].

IF 1.2 4区 化学 Q4 CHEMISTRY, ANALYTICAL
Zheng-Ming Qian, Meng-Qi Wu, Guo-Ying Tan, Li-Ling Jin, Ning Li, Ju-Ying Xie
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引用次数: 0

Abstract

Fraxini Cortex is a traditional Chinese herbal medicine that has been used for thousands of years to treat dampness-heat diarrhea, dysentery, red or white vaginal discharge, painful swelling or redness of the eyes, and nebula. It contains various chemical components, including coumarins, iridoids, phenolic acids, and flavonoids. Coumarins are important active ingredients in Fraxini Cortex and have antibacterial, anti-inflammatory, antioxidant, antitumor, and antiviral activities. Aesculin and aesculetin are two major coumarin components of Fraxini Cortex that are widely used in its quality evaluation. Previous HPLC methods for determination of aesculin and aesculetin present several limitations, such as long analysis times and high solvent and reference compound consumption. In this study, a rapid, eco-friendly and cost saving HPLC method for the determination of aesculin and aesculetin in Fraxini Cortex was established by using the core-shell column and equal absorption wavelength (EAW). Different factors influencing the extraction process, such as the extraction solvent, temperature, and time, were assessed to obtain the optimal extraction conditions. The results showed that Fraxini Cortex samples could be well extracted by ultrasonic extraction for 5 min with a 25% ethanol aqueous solution. A core-shell column was used, and different mobile phases and flow rates were investigated to obtain the best rapid-HPLC separation conditions. The optimized HPLC conditions were as follows: a Poroshell 120 EC-C18 column (50 mm×4.6 mm, 2.7 μm), acetonitrile-0.1% formic acid aqueous solution (6∶94, v/v) as the eluent, a flow rate of 1.5 mL/min, and a column temperature of 25 ℃. The EAW of aesculin and aesculetin was a key factor in their determination using a single reference compound. EAW selection was performed in two steps. First, the UV spectra of two equimolar concentrations of the reference compounds (aesculin and aesculetin) were compared to determine the EAW of the two analytes. The EAW results were then verified by the HPLC analysis of the reference compound solutions. The final EAW of aesculin and aesculetin was 341 nm. The determination of aesculin and aesculetin using only one reference compound (i. e., aesculin) was achieved by HPLC-UV at this EAW. The newly developed HPLC method revealed a good linear relationship between the two target analytes (r=1.0000). The limits of detection (LODs) and limits of quantification (LOQs) were 1.5 μmol/L and 3.0 μmol/L, respectively, and the average recoveries of aesculin and aesculetin were 99.0% and 97.5%. The stabilities of the sample solutions were examined, and the two analytes demonstrated good stability for 24 h. The contents of the target analytes in 10 batches of Fraxini Cortex were determined using the proposed EAW method and the classic external standard method (ESM), and comparable concentrations were obtained. The contents of aesculin and aesculetin in the 10 batches of Fraxini Cortex were 0.26%-2.80% and 0.11%-1.47%, respectively. A t-test was conducted to compare the results of the proposed EAW technique with those obtained via the method reported in the Chinese Pharmacopoeia, and no significant difference between the two assay methods was noted (P>0.05). Comparison of the newly established EAW method with those reported in the literature revealed that our method required only 10 min to complete and used as little as 0.5 mL of the solvent and only one standard. Therefore, the developed EAW method is a rapid, simple, eco-friendly, and cost-effective analytical method that is suitable for the determination of aesculin and aesculetin in Fraxini Cortex and its related products. The proposed technique is an improved method for determining aesculin and aesculetin and contributes to the enhancement of the quality evaluation of Fraxini Cortex.

【等吸收波长紫外高效液相色谱法快速测定秦皮中秦皮苷和秦皮素】。
黄曲霉皮是一种传统的中草药,几千年来一直用于治疗湿热腹泻、痢疾、阴道红白分泌物、眼睛红肿痛和星云。它含有各种化学成分,包括香豆素、环烯醚萜、酚酸和类黄酮。香豆素是黄芪皮中的重要活性成分,具有抗菌、抗炎、抗氧化、抗肿瘤和抗病毒活性。七叶皂苷和七叶皂苷是七叶皂苷的两种主要香豆素成分,被广泛用于七叶皂苷的质量评价。以往的高效液相色谱法测定秦皮苷和秦皮苷存在分析时间长、溶剂和参比物消耗大等局限性。本研究采用核-壳柱-等吸收波长法(EAW)建立了快速、环保、节约成本的高效液相色谱法测定秦皮中秦皮苷和秦皮素的含量。考察了提取溶剂、提取温度、提取时间等因素对提取工艺的影响,确定了最佳提取条件。结果表明,在25%乙醇水溶液中超声提取5 min,可较好地提取白蜡皮样品。采用核壳柱,考察了不同的流动相和流速,获得了最佳的快速高效液相色谱分离条件。优化的高效液相色谱条件为:色谱柱为Poroshell 120 EC-C18 (50 mm×4.6 mm, 2.7 μm),乙腈-0.1%甲酸水溶液(6∶94,v/v),流速为1.5 mL/min,柱温为25℃。用单一标准化合物测定秦皮苷和秦皮素的EAW值是决定其含量的关键因素。EAW选择分两步进行。首先,比较两种等摩尔浓度的参比化合物(aesculin和aesculletin)的紫外光谱,确定两种分析物的EAW。然后用HPLC分析标准化合物溶液验证EAW结果。aesculin和aescultin的最终EAW为341 nm。采用高效液相色谱-紫外分光光度法,仅使用一种参比化合物(即aesculin)测定了aesculin和aescultin的含量。新建立的高效液相色谱法显示两种目标分析物之间具有良好的线性关系(r=1.0000)。检测限和定量限分别为1.5 μmol/L和3.0 μmol/L,平均加样回收率分别为99.0%和97.5%。采用EAW法和经典外标法(ESM)对10批白蜡皮中目标物的含量进行了测定,得到了相当的浓度。10批秦皮中秦皮苷和秦皮素的含量分别为0.26% ~ 2.80%和0.11% ~ 1.47%。采用t检验比较EAW法与《中国药典》方法的测定结果,两种方法间差异无统计学意义(P>0.05)。将新建立的EAW方法与文献报道的方法进行比较,我们的方法只需要10分钟完成,使用的溶剂少至0.5 mL,只有一个标准品。因此,所建立的EAW法是一种快速、简便、环保、经济高效的分析方法,适用于秦皮及其相关产品中秦皮苷和秦皮素的含量测定。该方法是测定秦皮苷和秦皮素的一种改进方法,有助于提高秦皮药材的质量评价。
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
色谱
色谱 CHEMISTRY, ANALYTICAL-
CiteScore
1.30
自引率
42.90%
发文量
7198
期刊介绍: "Chinese Journal of Chromatography" mainly reports the basic research results of chromatography, important application results of chromatography and its interdisciplinary subjects and their progress, including the application of new methods, new technologies, and new instruments in various fields, the research and development of chromatography instruments and components, instrument analysis teaching research, etc. It is suitable for researchers engaged in chromatography basic and application technology research in scientific research institutes, master and doctoral students in chromatography and related disciplines, grassroots researchers in the field of analysis and testing, and relevant personnel in chromatography instrument development and operation units. The journal has columns such as special planning, focus, perspective, research express, research paper, monograph and review, micro review, technology and application, and teaching research.
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