Development and validation of a gas chromatographic-mass spectrometric method for simultaneous identification and quantification of marker compounds including bilobalide,ginkgolides and flavonoids in Ginkgo biloba L. extract and pharmaceutical preparations

A gas chromatography-mass spectrometry (GC-MS) method was developed and validated for the simultaneous determination of seven major chemical markers (bilobalide, ginkgolides A, B, C, kaempferol, quercetin and isorhamnetin) in phytopharmaceuticals of Ginkgo biloba L. The intra-day relative standard deviations (RSD) and inter-day RSD's were based on the analysis of the standardized Ginkgo biloba L. extract on the same day and on the following 3 consecutive days. The intra-day RSD's ranged from 1.21% (bilobalide) to 6.20% (kaempferol). The inter-day RSD's ranged from 2.10% (bilobalide) to 10.42% (isorhamnetin). Mean recoveries ranged from a low of 63.0 +/- 5.3% (isorhamnetin) to a maximum of 103.5 +/- 6.0% (ginkgolide A). Calibration curves were linear in ranges between 2.73 and 36.36 microg/ml for the markers. Limits of detection ranged from a low of 0.5 microg/ml (bilobalide) to a high of 2.5 microg/ml (quercetin). The limits of quantitation were a low of 1.1 microg/ml (gingkolides A, B, C) to a high of 7.5 microg/ml (kaempferol). The method was applied to a standard extract (>6% total terpenoids and >24% total flavonoids) and six ginkgo capsule phytopharmaceuticals.     

Development of a Liquid Chromatography Tandem Mass Spectrometry Method for Identification of Flavonoids in Ginkgo biloba

A rapid, selective and sensitive method for analysis of trace flavonoids and its glycoside derivatives in ginkgo has proposed. Ultrasonic‐assisted extraction of sample preparation was adopted to extract trace flavonoids in ginkgo leaf and its processed product. The compounds were identified using liquid chromatography negative electrospray ionization triple quadrupole tandem mass spectrometry (MS/MS). The neutral loss scan mode of MS/MS was used to screen flavonoid compounds and those compounds with acid group, or having rhamnosyl, glucosyl, or coumaroyl moiety in the samples. The successive data‐dependent product ion scan mode of MS/MS was used to identify the structure of the components. The analytical results represented three aglycone flavonoids and seven flavonoid glycosides in ginkgo. The method detection limits were evaluated for the analytes analyzed in the range of 0.88 to 2.67 μg/mL.     

THE APPLICATION OF A NOVEL ADSORBENT IN RAPID SAMPLE CLEAN—UP OF GINKGOLIDES AND BILOBALIDE IN EXTRACTS OF GINKGO BILOBA LEAVES

A rapid method has been developed for rapid sample clean-up in the determination of the pharmacologically active terpenoid including ginkgolide A,B,C and bilobalide in ginkgo biloba leaves extracts (GBE).The extracts are dissolved in 7% of ethanol aqueous solution and then purified by a highly selective polyeric adsorbent solid-phase chromatographic column.After being concentrated,the separated terpenoids with no phenolic distrubance are determined by highperformance liquid chromatorgraphy on a Nova-Pak C18 column with methanol-water(30:70)as effluent and refractive index detection.The recovery of the method is about 95% and the new method saves more time than the conventional two-column purification method.     

THE APPLICATION OF A NOVEL ADSORBENT IN RAPID SAMPLE CLEAN-UP OF GINKGOLIDES AND BILOBALIDE IN EXTRACTS OF GINKGO BILOBA LEAVES

1 INTRODUCTIONGinkgolides, known as specific antagonist of platelet factor (PAF), possess uniquepharmaceutical properties and are main active constituent of many phytopharrnaceuticpreparations based on ginkgo bilioba leaves extracts II]. Another active terpenoid, namelybilobalide, is reported recently to show potent therapeutic efficacy to the disease related to nervesystem 121. They are all terpene lactones, which are highly oxidized as illustrated in Figure 1.The first attempts to ana…     

A sensitive method for the detection and quantification of ginkgo flavonols from plasma

Extracts from Ginkgo biloba leaves (family Ginkgoaceae) have antioxidant and free radical scavenging effects, largely attributed to the flavonols, which are a major class of functional components in ginkgo extracts. In order to facilitate analysis of systemic exposure to ginkgo-derived products in animals and/or humans, we developed a liquid chromatography/tandem mass spectrometry (LC/MS/MS)-based method that is capable of routinely monitoring plasma levels of ginkgo flavonols. We used an initial acidic hydrolysis step to convert the plasma ginkgo flavonol conjugates into their aglycone forms [quercetin (QCT), kaempferol (KMF) and isorhamnetin (ISR)] prior to EtOAc-based extraction and subsequent LC/MS/MS-based analysis. Comparative studies showed that the use of a mobile phase containing an extremely low concentration of HCOOH (0.01 per thousand) dramatically improved the electrospray ionization efficiency of the analytes in the negative ion mode; the efficiencies were approximately 4-, approximately 8- and approximately 20-fold higher for QCT, KMF and ISR, respectively, versus the results obtained using an electrolyte-free mobile phase, or approximately 2-, approximately 3- and approximately 4-fold higher, respectively, versus the results obtained using a mobile phase containing the more commonly utilized concentration of HCOOH (1 per thousand). In addition, use of the low concentration of HCOOH also decreased undesired matrix effects. These favorable effects have been referred to as 'LC-electrolyte effects'. Due to structural differences in the B-ring substituent, different types of precursor-to-product ion pairs (m/z 301 --> 151 for QCT, 285 --> 187 for KMF, and 315 --> 300 for ISR) were used for the selected reaction monitoring of the analytes. In addition, the chromatographic conditions were optimized on the basis of an initial scouting of matrix effects on analyte ionization. Despite the absence of an internal standard, the validation results consistently demonstrated that our bioassay is valid, reproducible, and reliable. The newly developed assay provided lower limits of quantification of 1.3, 1.3 and 0.4 pg on-column for QCT, KMF and ISR, respectively, which is more sensitive than any previously reported method for determining ginkgo flavonols. Finally, the assay suitability was demonstrated in a pilot pharmacokinetic measurement of a pharmaceutical ginkgo product in a beagle dog. This newly developed method should prove useful for wide-scale monitoring of ginkgo flavonol plasma concentrations for both pharmaceutical investigations and clinical applications.     

高效液相色谱-串联质谱法同时测定银杏保健茶中的16种黄酮类功效成分

建立了银杏保健茶中16种黄酮类物质的液相色谱-串联质谱(LC-MS/MS)测定方法。16种黄酮成分分别为儿茶素、牡荆素、葛根素、大豆苷元、水飞蓟宾、槲皮素、木犀草素、芹菜素、柚皮素、橙皮素二氢查尔酮、山柰酚、橙皮素、异鼠李素、黄芩素、川陈皮素、桔皮素。实验优化了液相色谱条件和质谱参数。采用C₁₈柱分离,流动相为乙腈-水(含0.1%甲酸)梯度洗脱,流速0.25 mL/min,以电喷雾离子源正离子多反应监测(MRM)模式进行MS/MS检测。16种黄酮类物质在各自的线性范围内具有良好的线性关系,相关系数大于0.996,低、中、高3个添加水平的平均回收率在70.9%~100.0%之间,相对标准偏差小于10%。通过检测发现实际样品中9种黄酮物质含量较高,分别是:山柰酚、槲皮素、橙皮素、牡荆素、木犀草素、儿茶素、芹菜素、柚皮素、异鼠李素,占总量的99.6%,此9种物质可作为银杏保健茶的质量控制指标。本法简便、快速、准确可靠,可用于控制银杏保健茶的质量。     

Optimization of CZE for analysis of phytochemical bioactive compounds

Advantages of CZE such as high efficiency, low cost, short analysis time, and easy implementation result in its wide applications for analysis of phytochemical bioactive compounds (e.g. flavonoids, alkaloids, terpenoids, phenolic acid, saponins, anthraquinones and coumarins). However, several aspects, including sample preparation, separation, and detection have significant effects on CZE analysis. Therefore, optimization of these procedures is necessary for development of the method. In this review, sample preparation such as extraction method and preconcentration, separation factors including buffer type, concentration and pH, additives, voltage and temperature, as well as detection, e.g. direct and indirect UV detection, LIF and MS were discussed for optimization of CZE analysis on phytochemical bioactive compounds. The optimized strategies were also reviewed.     

Pressurised liquid extraction of flavonoids in onions. Method development and validation

A rapid and reliable analytical method for quantification of flavonoids in onions was developed and validated. Five extraction methods were tested on freeze-dried onions and subsequently high performance liquid chromatography (HPLC) with UV detection was used for quantification of seven flavonoids.The extraction efficiencies were lowest for the conventional water bath extraction compared to pressurized liquid extraction (PLE), ultrasonication, ultrasonic liquid processor, and microwave extraction, which yielded similar efficiencies. The reproducibility was in the same range (RSD: 1-11%) for all tested extraction methods. However, PLE was the preferred extraction method because the method can be highly automated, use only small amounts of solvents, provide the cleanest extracts, and allow the extraction of light and oxygen-sensitive flavonoids to be carried out in an inert atmosphere protected from light.The method parameters: extraction temperature, sample weight, flush volume and solvent type were optimised, and a clean-up step was integrated in the PLE procedure by in-cell addition of C18-material to the extraction cells, which slightly improved the recovery and reproducibility of the method. The one-step PLE method showed good selectivity, precision (RSDs = 3.1-11%) and recovery of the extractable flavonoids (98-99%). The method also appeared to be a multi-method, i.e. generally applicable to, e.g. phenolic acids in potatoes and carrots.     

PURIFICATION OF GINKGO LEAVES EXTRACT WITH MACROPOROUS ADSORBENT BASED ON UREA—FORMALDEHYDE CONDENSED POLYMERS

The relationship between the adsorption properties for the active components of ginkgo leaves and the structure of the adsorbents based on urea-formaldehyde condensed polymers was investigated.The results revealed that these adsorbents showed very high adsorpton selectivity for both flavonol glycosides and terpene lactones contained in ginkgo leaves.Thus,an adsorption separation procedure for purification of ginkgo leaves extracts was developed.     

Rapid identification of chemical compositions in callicarpa kwangtungensis Chun by ultra‐high‐performance liquid chromatography with Q Exactive hybrid quadrupole orbitrap high‐resolution accurate mass spectrometry

Callicarpa kwangtungensis Chun is a traditional Chinese medicine that has various therapeutic effects. Despite its wide use in Chinese medicine, the study is still quite limited, especially its chemical compositions. In this research, an ultra‐high‐pressure liquid chromatography coupled with Q Exactive hybrid quadrupole‐orbitrap high‐resolution accurate mass spectrometry tandem mass spectrometry method was utilized to analyze its chemical compositions for the first time. As a result, a total of 124 compounds, including 20 phenylethanoid glycosides, 31 flavonoids, 36 organic acids, 26 terpenoids and 11 phenols, were identified or tentatively characterized in 30 min. Among them, 49 compounds, including 5 phenylethanoid glycosides, 12 flavonoids, 16 organic acids, 12 terpenoids, and 4 phenols, were identified in Callicarpa kwangtungensis Chun for the first time. Besides, the fragmentation pathways were also discussed. This research established a rapid and reliable method to analyze the chemical compositions of complicated herb without the process of isolation, and provide abundant information on the chemical material basis for further bioactivity and quality control studies.     

Detection of fortification of ginkgo products using nanoelectrospray ionization mass spectrometry

We report here a negative ionization nanoelectrospray ionization mass spectrometry (nanoESI-MS) technique that simultaneously detects active components, terpenes and intact flavonol glycosides, and toxic ginkgolic acids in ginkgo products. Unlike the conventional methods that hydrolyze flavonol glycosides to flavonoids for analysis, this technique directly detects intact flavonol glycosides, enabling differentiation of these natural glycosides from the synthetic flavonoids. Thus, it allows the detection of fortification of ginkgo products, alleviating a common problem encountered by the conventional methods. Analysis of 14 commercial ginkgo products using this technique demonstrates large variations and deviation from the well-accepted standardized ginkgo extract. Four products showed evidence of fortification with synthetic surrogates. Two products were found to have toxic ginkgolic acids that exceed the 5 microg g(-1) limit by as much as 60000 fold. These results emphasize the importance of appropriate monitoring of ginkgo product quality.     

高频感应炉燃烧–红外吸收法测定银杏及银杏叶中的硫含量

采用高频感应炉燃烧–红外吸收法测定银杏叶、银杏果肉、银杏壳和银杏仁中的硫含量。样品以艾士卡试剂为熔融剂,在800℃马弗炉内熔融1 h,冷却后测定硫含量。硫的质量分数在0.40%~4.00%范围内与吸收峰面积呈良好的线性关系,线性相关系数为0.990 4,检出限为0.000 9%。测定结果的相对标准偏差为4.04%(n=11),平均加标回收率为101.03%。将红外吸收法与电感耦合等离子体原子发射光谱法及硫酸钡重量法进行比对试验,3种方法测定结果相一致。利用该方法测定了不同区域银杏叶中硫的含量,结果表明,风景区和居民区银杏叶干燥基全硫的含量较低,重工业区硫含量较高。对同一地区的银杏果肉、银杏壳、银杏仁中干燥基全硫的含量进行比较,结果表明银杏果肉硫含量最高,银杏壳次之,银杏仁最低。该方法灵敏度高,重现性好,可用于银杏及银杏叶中硫含量的准确测定。     

Analysis of the chemical components of Qixianqingming granules and their metabolites in rats by UPLC‐ESI‐Q‐TOF‐MS

Qixianqingming granules (QXQM) comprise a traditional Chinese medicine (TCM) formula that was developed based on the combination of TCM theory and clinical practice. This formula has been proven to effectively treat asthma. In this study, an analytical procedure using ultraperformance liquid chromatography, coupled with electrospray ionization quadrupole time‐of‐flight mass spectrometry, was established for the rapid separation and sensitive identification of the chemical components in QXQM and its metabolites in serum of rats. Seventy‐two compounds were systematically identified in QXQM, including flavonoids, terpenoids, anthraquinones, phenylethanoid glycosides, stilbenes, alkaloids, and organic acids. Thirteen prototype compounds and 29 metabolites were detected in the serum of rats. The results provided fundamental information for further studying the mechanisms and clinical application of QXQM.     

Selective dissolution and one step separation of terpene trilactones in ginkgo leaf extracts for GC-FID determination

Under ultrasonication, the ginkgo terpene trilactones, ginkgolides and bilobalide, in ginkgo extracts can be selectively dissolved in 10% aqueous NaH(2)PO(4) solution at a temperature of 50-60 degrees C and separated from the solution by extraction with a mixture of ethyl acetate/tetrahydrofuran in a capped vial. After derivatization, these terpene trilactones can be quantified using GC-FID. This method has a detection limit of 10 ng, and the RSD was 6% (n=5). Twelve commercial GBE products in powder, liquid, tablet and capsule forms were analyzed. The total time required for analyzing these samples from sample preparation to final data processing was less than 6 h, and the total organic solvent consumption was less than 40 ml. This procedure proves to be a simple, fast, safe, and effective method for all types of Ginkgo biloba extracts (GBE) including the "complex" or "advanced" formulas.     

Advances in Supercritical Carbon Dioxide Extraction of Bioactive Substances from Different Parts of Ginkgo biloba L.

Ginkgo biloba L. has always been a popular area of research due to its various active ingredients and pharmacological effects. Ginkgo biloba is rich in ginkgo flavonoids, ginkgolides, and ginkgolic acid, with anti-inflammation, antioxidation, neuroprotection, anti-platelet agglutination, hypolipidemic effect, anti-cancer, and anti-radiation properties. There are many methods to extract and separate the active components of ginkgo. Among them, supercritical carbon dioxide fluid extraction (SFE-CO₂) is known for its green, clean, and environment-friendly properties. In this paper, the pharmacological activities, the active components, and structures of different parts of ginkgo, the extraction methods of its effective ingredients, and the application of the SFE-CO₂ method for the extraction and separation of active ingredients in Ginkgo biloba from leaves, seeds, pollen, and roots were reviewed, in order to make best use of ginkgo resources, and provide support and references for the development of SFE-CO₂ of active components from Ginkgo biloba.     

一种新型微波辅助萃取法用于中药刺五加中总黄酮萃取的研究

微波萃取法是目前世界上公认的绿色样品预处理技术之一 .它在环境、生化、食品、工业以及天然产物和中药等领域均有广泛的应用 [1～ 4 ] .目前 ,最常用的微波萃取系统有两种 [5] ,一种是使用多模式微波炉 ,在密闭容器中加热样品及有机溶剂 ,将目的组分从样品基体中萃取出来 .由于在密闭容器中 ,被萃取样品和溶剂处于高压下 ,温度很高 ,使待萃取物的溶解度增大 ,可获得更高的萃取率 .同时 ,用于这种微波萃取的系统一般可同时容纳 9～ 1 2个萃取罐 ,使试样的批量处理能力大大提高 .该法最主要的缺点是萃取后的液体一般需经离心分离或微孔玻璃…     

Chip-based nanoflow high performance liquid chromatography coupled to mass spectrometry for profiling of soybean flavonoids

In this work a chip-based nano HPLC coupled MS (HPLC-chip/MS) method with a simple sample preparation procedure was developed for the flavonoid profiling of soybean. The analytical properties of the method including the linearity (R(2) , 0.992-0.995), reproducibility (RSD, 1.50-7.66%), intraday precision (RSD, 1.41-5.14%) and interday precision (RSD, 2.76-16.90%) were satisfactory. Compared with the conventional HPLC/MS method, a fast extraction and analysis procedure was applied and more flavonoids were detected in a single run. Additionally, 13 flavonoids in soybean seed were identified for the first time. The method was then applied to the profiling of six varieties of soybean sowed at the same place. A clear discrimination was observed among different cultivars, three isoflavones, accounting for nearly 80% of total flavonoid contents, were found increased in the spring soybeans compared with the summer cultivars.     

Isolation and enrichment of Ginkgo biloba extract by a continuous chromatography system

In this study, an effective method was developed for the isolation and enrichment of Ginkgo biloba extract by continuous chromatography system. The adsorption and desorption ratio of flavonoids as main index, the best macroporous resin was screened out from six resins by static adsorption and desorption tests. At the same time the adsorption and desorption parameters were optimized by dynamic adsorption and desorption tests. Under optimal parameters, five operations consisting of loading, washing, desorbing, regenerating, and balancing were integrated across the continuous chromatography system for the purpose of refining 66 L of crude extract solution. The results were as follows, 198.22 g of Ginkgo biloba extracts was produced, which contained 65.83 g of flavonoids and 15.44 g of lactones. The content of flavonoids and lactones increased from 2.76 and 0.72% in the crude extract to 33.21 and 7.79%, with a recovery yield of 91.26 and 81.21%. Methodology validation showed that the proposed method had high stability and reproducibility. Compared with the traditional macroporous resin method, the proposed method had a short processing time and low solvent consumption. Our studies indicated that the newly developed method is an effective procedure for the isolation and enrichment of Ginkgo biloba extract.     

生物技术培养银杏发根中的黄酮分析研究

本文研究了银杏发根中黄酮含量的高效液相色谱（ＨＰＬＣ）分析方法,改进了样品预处理过程,实行提取、水解同步进行,并与天然银杏树叶中的黄酮进行了对照,分析结果表明,采用生物技术培养的银杏发根中确实含有银杏黄酮。     

Determination of moniliformin in maize by ion chromatography

An ion chromatographic method for the determination of the mycotoxin moniliformin in maize was developed. The method contains a fast and simple clean-up procedure, which allows high volume sample injection. No further pre-concentration step is required. The limit of quantification was estimated to be 0.12 mg/kg moniliformin in maize. In contrast to the two previously published ion chromatographic methods, the moniliformin peak is base line separated and occurs in a region of a smooth base line in the ion chromatogram. The newly developed method showed a recovery through the whole analytical procedure of 97+/-3.5 %, whereas most previously described analytical methods had recoveries in the 70% range.