基于“成分-药效”关联分析的六味地黄丸质量控制方法

本文以中药复方制剂六味地黄丸为研究示例,分别进行六味地黄丸药效成分明确化鉴别、典型药理模型的药效实验、成分与药效的关联分析,共鉴别出六味地黄丸中16个成分.通过成分与药效的关联性分析,得出4个与典型药理模型药效相关的成分.建立了指标性成分的含量测定方法学,通过"成分与药效"的关联性分析所得出指标性成分的含量测定方法,可实现对中药复方制剂六味地黄丸的质量控制.     

反相高效液相色谱法及电喷雾离子阱质谱法分析中药复方制剂肾宝片

建立了一种反相高效液相色谱梯度洗脱,以检测波长切换方法,同时测定中药复方制剂肾宝片中5种主要成分的含量。采用Alltima C18柱,以乙腈-水为流动相,用检测波长切换法,将5种主要成分分离测定,并采用高效液相色谱与电喷雾离子阱质谱(MS^3)联用,成功分离和鉴别了该制剂中的20种成分。本文建立的方法简便、灵敏、准确、可靠,可用于中药制剂肾宝片的质量控制。     

高效液相色谱指纹图谱在地黄研究中的应用(Ⅰ)

长期以来,中药有效成分的提取分离和质量控制一直是中药产业中特有和尚未很好解决的问题.随着天然产物化学和现代仪器分析技术等相关学科的迅速发展,国内外在植物药及其制剂质量控制研究方面的重点均已转向利用各种仪器进行品质评价方面.中药来源于自然,其化学成分的多样性和复杂性是中药发挥其疗效的物质基础,同时也是质量评价与控制的重点与难点.中药的化学成分复杂,所体现的是综合效应和整体疗效.然而多年以来在中药的研究靠中,采取了与化学药品相同的研究思路,结果将药材及制剂内部各成分的综合作用和相互关系彼此孤立.在中药材及复方制剂质量标准的研究制定中,也往往是采用各种分析检测手段测定其中某种有效成分,并以其含量多少来判断比较某种药材的质量.这种质量控制模式很难做到全面衡量中药及其制剂的质量、疗效和稳定性.单一成分含量达标并不能说明该中药材质量合格.指纹图谱质量控制模式能综合反映某一特定药材各主要组分及其相对含量.因此它比测定任何一种或几种成分所提供的信息都丰富和有用的多.中药提取物在给定的实验条件下所得到色谱指纹图谱反映了该中药的化学组成及其含量分布状况,其特征峰可作为鉴别中药的依据.本文研究结果表明,利用色谱指纹图谱的相关参数来对中药原药材的质量进行控制,进而使中成药的质量得到保证,此方法的运用是切实可行的.另外,在有效成分不明确的前提下,利用色谱指纹图谱来评价中药的质量是有其意义的.色谱指纹图谱作为控制中药质量的新手段将在推进中药现代化进程上起到积极的作用.本文利用高效液相色谱建立了地黄的色谱指纹图谱.采用反相C18柱(5μm,150 mm×4.6 mm)、流动相甲醇:水(V/V=5:95)、检测波长为280 nm、流速1.0 mL/min进行试验.根据相对保留值和相对面积值对色谱指纹图谱进行分析对比研究,建立了控制地黄药材质量的新方法.该法为中药样品的鉴定提供了较全面的信息.     

复方茜蒌颗粒大叶茜草素含量测定及茜草药材TLC鉴别

建立复方茜蒌颗粒中大叶茜草素HPLC含量测定方法及制剂中茜草药材TLC鉴别方法。(1)色谱柱为X Bridge shield Rp18(4.6×250 mm,5μm),流动相为乙腈-0.2%磷酸水(88∶12),流速为1.0m L·min~(-1),柱温为25℃,检测波长为210 nm;(2)展开剂为石油醚(60-90℃)-丙酮(4∶1.5)。(1)在该色谱条件下,大叶茜草素在20-100μg·m L~(-1)范围内线性关系良好(r=0.9997);平均回收率为99.06%,(RSD=1.34%)。(2)薄层色谱中检出茜草药材的特征斑点,与对照品及对照药材色谱相应的位置上,显相同颜色的斑点,阴性对照品无干扰斑点检出。本方法操作简便,能有效地鉴别制剂中茜草药材成分,可用于复方茜蒌颗粒的质量控制。     

制备型高效液相色谱法分离纯化川西獐牙菜提取物中的龙胆苦苷

龙胆苦苷(GPS)是龙胆类药材及其相关制品质量控制的指标成分。本研究利用制备型高效液相色谱从川西獐牙菜提取物中分离纯化龙胆苦苷对照品。对制备色谱的流动相组成、流速、进样量和检测波长等制备参数进行了优化。采用的色谱柱为C18柱(200 mm×50 mm, 5 μm),流动相为甲醇和0.1%乙酸水溶液(体积比为30:70),流速为75 mL/min,检测波长为254 nm,进样体积为500 μL。在30 min的运行时间内,龙胆苦苷与其他干扰成分得到了很好的分离,产品纯度达到了99%以上。此方法具有快速高效、产品纯度高的特点,可用于制备龙胆苦苷对照品和对龙胆苦苷制品的质量控制。     

在线二维柱切换-超高效液相色谱法同时测定明目地黄丸中莫诺苷、马钱苷、芍药苷、丹皮酚的含量

建立了二维柱切换-超高效液相色谱法同时测定明目地黄丸中莫诺苷、马钱苷、芍药苷、丹皮酚含量的方法.一维色谱柱为Thermo Accucore XL C18(250mm×2.1 mm,4μm),二维色谱柱为DIONEX Acclaimphenyl-1(150mm ×4.6mm,3μm),一维分析流动相为乙腈-水,梯度洗脱,二维分析流动相为乙腈-水,等度洗脱,14.5 min进行阀切换;检测波长:0～14.5 min为240 nm,14.5～ 30 min为275 nm,流速:0.5 mL/min,柱温:30℃.30 min即可完成明目地黄丸中莫诺苷、马钱苷、芍药苷、丹皮酚的含量测定,并有效地将莫诺苷同分异构体分离.莫诺苷、马钱苷、芍药苷、丹皮酚的线性范围分别为7.6 ～ 377 mg/L,9.2～ 459 mg/L,8.4～419 mg,/L和8.2 ～ 409 mg/L,相关系数为0.9999,加样回收率为98.3％～ 100.2％.本方法快捷高效,可对控制明目地黄丸质量提供参考.     

反相高效液相色谱法测定普通鹿蹄草中的黄酮苷类成分

建立了普通鹿蹄草中5种黄酮苷(金丝桃苷、异槲皮苷、2″-O-没食子酰基金丝桃苷、槲皮素-3-O-呋喃阿拉伯糖苷和槲皮苷)的高效液相色谱检测方法。采用Zorbax Extend-C18色谱柱(250 mm×4.6 mm,5 μm),以乙腈-水(体积比14∶86)为流动相,在波长为350 nm处检测。在此条件下,样品中5种黄酮苷分离良好且无杂质峰干扰,低、中、高浓度下的回收率为96.3%~104.2%,相对标准偏差（RSD）小于5%。该方法简便快速、结果准确、重现性好,可以作为普通鹿蹄草药材及相关制剂质量控制的一个有效方法。     

超快速液相色谱-三重四极杆/线性离子阱质谱法同时测定连翘药材中的多元活性成分

建立了基于超快速液相色谱-三重四极杆/线性离子阱质谱(UFLC-QTRAP-MS/MS)同时测定连翘药材中苯乙醇苷类、木脂素类、黄酮类及酚酸类共21种活性成分含量的方法。采用响应面法(RSM)优化连翘药材的提取条件;以XBridge?C_(18)(4.6 mm×100 mm,3.5μm)色谱柱分离,水(含0.1%甲酸)-乙腈为流动相,梯度洗脱,流速为0.8 mL/min,柱温为30℃,进行多反应监测(MRM)模式检测。结果表明,最佳提取条件为:甲醇体积分数72%,液料比38∶1 mL/g,提取时间60 min。21种目标成分在一定质量浓度范围内均呈良好的线性关系,相关系数(r)均不小于0.999 0;检出限和定量下限分别为0.001～233.710 ng/mL和0.002～771.250 ng/mL;精密度、重复性和稳定性良好;平均加标回收率为98.6%～102%,相对标准偏差(RSD)为0.89%～3.8%。该方法准确、可靠,可为连翘药材内在质量的综合评价和全面控制提供参考。     

HPLC波长切换法同时测定粗茎秦艽中6个成分的含量

本实验建立了HPLC波长切换法同时测定云南丽江粗茎秦艽中马钱苷酸、獐牙菜苦苷、龙胆苦苷、獐牙菜苷、异荭草苷、异牡荆苷6种成分的含量,并对各成分含量间的相关性进行分析,为粗茎秦艽药材质量的全面评价提供了科学依据。采用Sepax Gp-C18(150 mm×4.6 mm,5μm)色谱柱,甲醇-0.1%磷酸为流动相体系,梯度洗脱,流速1.0 mL·min-1,柱温25℃,检测波长235 nm(0~51 min)、270 nm(51~57 min)、243 nm(57~65 min)、270 nm(65~80 min)。马钱苷酸、獐牙菜苦苷、龙胆苦苷、獐牙菜苷、异荭草苷、异牡荆苷的量分别在0.01000~10.0000、0.00216~2.1600、0.0480~48.0000、0.0010~1.0000、0.00034~0.3400、0.00026~0.2600μg范围内与色谱峰峰面积呈良好的线性关系,平均回收率为98.52%~99.31%,RSD均小于3.5%(n=6);对各成分含量间相关性分析发现环稀醚萜苷类与黄酮类组分含量间无相关性,四种环烯醚萜苷类成分的含量之间存在着显著相关性,两种黄酮类成分的含量之间也存在相关性。该方法简便、快速、准确,重现性好,更符合中药材复杂体系的多指标质量控制发展趋势,为粗茎秦艽药材的质量控制找到了简便易行的方法。     

桂枝茯苓丸的高效液相色谱指纹图谱研究

应用高效液相色谱(HPLC)法建立桂枝茯苓丸的指纹图谱。采用ANGLA Promosil C18色谱柱(250×4.6mm,5μm),以乙腈-0.1%磷酸水溶液为流动相,梯度洗脱,230nm检测,优化条件下,桂枝茯苓丸各成分得到较好的分离。经方法学验证,方法具良好的精密度、重复性和稳定性。采用中药色谱指纹图谱相似度评价系统软件(2004A版)进行指纹图谱分析,11批桂枝茯苓丸样品相似度均在0.90以上。实验表明:桂枝茯苓丸的HPLC指纹图谱特征性和专属性强,可较系统地用于桂枝茯苓丸的质量控制。     

Simultaneous Determination of Phenolics and Polymethoxylated Flavones in Citrus Fruits by Ultra-High Performance Liquid Chromatography Coupled with Triple-Quadrupole Mass Spectrometry (UHPLC-QqQ-MS)

Phenolic and polymethoxylated flavones are important bioactive components in citrus fruit. Here, a rapid and sensitive method based on ultra-high performance liquid chromatography coupled with triple-quadrupole mass spectrometry (UHPLC-QqQ-MS) was developed for the simultaneous determination of phenolic and polymethoxylated flavones in the peels and pulp of mandarins, tangelos, and oranges. Three phenolic acids and eight flavonoids, including polymethoxylated flavones, were separated and determined using positive and negative ion modes in a single chromatographic run of only 11?min using the multiple reaction monitoring detection mode. The method was validated with high recoveries from 96.1% to 103.5%, good precision with interday relative standard deviations less than or equal to 7.3%, intraday relative standard deviations ≤2.64%, low limits of detection from 1.0 to 18?µg L^–1, and low limits of quantitation in the range from 3.0 to 61?µg L^–1. The application of this UHPLC-QqQ-MS/MS method to the citrus extracts of three cultivars showed that mandarin fruits contained the highest total amounts of the 11 analytes, followed by tangelos and oranges. This study provides a reliable and quantitative method that can be used for the development of functional products and quality evaluation of citrus fruits.     

萃取纳升喷雾-离子迁移谱法现场快速筛查化妆品中8种禁用抗生素

采用萃取纳升喷雾结合离子迁移谱技术,建立了化妆品中8种禁用抗生素的现场快速筛查方法。对萃取纳升喷雾毛细管拉制条件、萃取纳升喷雾离子化条件、离子迁移谱检测条件等进行了详细考察和优化。在优化的实验条件下,8种禁用抗生素的方法检出限为20 mg/kg,离子迁移谱分析时间小于20 ms,单个样品全部检测时间不超过30 s。对于筛检出的疑似阳性样品,进一步采用超高效液相色谱-串联质谱进行确证。该方法流程简便、快捷高效,为化妆品中违禁组分的现场快速筛查提供了较为广阔的应用前景。     

分散液液微萃取/气相色谱-质谱法测定蜂蜜中六六六和滴滴涕类农药残留

建立了分散液液微萃取(DLLME)与气相色谱-质谱法(GC-MS)联用快速检测蜂蜜中六六六(BHC)和滴滴涕(DDT)类农药残留的分析方法.使用三氯甲烷为萃取剂,通过涡旋、离心使分析物富集到微量三氯甲烷中,采用气相色谱-质谱进行分析.实验对影响DLLME萃取效率的因素,如萃取剂种类和体积、分散剂种类和体积、萃取时间等进行了考察,同时对方法的基质效应和性能进行了评估.结果显示:由于基质效应,8种六六六和滴滴涕类农药都出现信号增强现象.8种六六六和滴滴涕类农药在2~500 μg/L范围内线性关系良好,相关系数(r²)为0.991~0.998,方法富集倍数为74~96;当试样的加标水平为20、50和100 μg/kg时,8种六六六和滴滴涕类农药的回收率为61.0%~100.1%,相对标准偏差(RSD, n=5)为2.2%~19.5%.8种六六六和滴滴涕类农药的最低检测浓度均为20 μg/kg,最小检出量皆为1.0 ng.该方法简单、快速、高效,适用于蜂蜜中六六六和滴滴涕类农药的残留检测.     

Direct from solid natural products to pure compounds in a single step: Coupling online extraction with high‐speed counter‐current chromatography

Extraction is the most important step in the purification of bioactive compounds from natural products. This study introduces a simple online extraction strategy coupled with high‐speed counter‐current chromatography for efficient extraction and purification of bioactive components from solid natural products. For online extraction strategy, 1.0 g of ground Mangnolia officinalis or Piper nigrum was loaded into a guard column, which was then positioned on the manual injection valve instead of the sample loop. Bioactive components were directly extracted by the mobile phase of high‐speed counter‐current chromatography, and then transferred into high‐speed counter‐current chromatography for purification. In addition, the compatibility of the developed methodology for direct purification of bioactive components from fresh M. officinalis was successfully demonstrated. Obviously, in comparison with traditional offline heat‐reflux extraction, online extraction avoided the instrument, time, solvent, and energy consumption, and purified two phenolic compounds (honokiol and magnolol) from M. officinalis and three alkaloids (piperyline, piperine, and piperanine) from P. nigrum with high extraction efficiency. The superiority of the developed methodology is to establish an easy, rapid, and efficient technique for the purification of a wide variety of bioactive components from solid natural products.     

Study on electrochemical profiles of Valeriana medicinal plants by capillary electrophoresis

The objective of this work was to develop a high-performance capillary electrophoresis with amperometric detection (CE-AD) method for the determination of pharmacologically active ingredients in extracts of Valeriana medicinal plants. The method was validated for linearity, repeatability, limits of detection (LODs) and limits of quantification (LOQs), etc. The LODs and LOQs of eight compounds were found to be in the range from 1.0 × 10^?8 to 1.2 × 10^?7 and 3.3 × 10^?8 to 4.0 × 10^?7 g/mL, respectively. The proposed method was successfully applied for the analyses and comparison of bioactive components in Valeriana samples after a relatively simple extraction procedure, and the resultant “electrochemical profiles” can intuitively demonstrate the content diversity of each electrochemically active ingredient in Valeriana samples from different places and plant parts. It was found the content of bioactive ingredients may vary by an order of magnitude depending on natural conditions, e.g. soil, climate, humidity etc.     

Analysis of polybrominated diphenyl ethers (PBDEs) by liquid chromatography with negative-ion atmospheric pressure photoionization tandem mass spectrometry (LC/NI-APPI/MS/MS): application to house dust

Eight polybrominated diphenyl ether (PBDE) congeners of primary interest to the US EPA were separated using reverse-phase liquid chromatography on an octadecylsilane column. BDE-28, BDE-47, BDE-99, BDE-100, BDE-153, BDE-154, BDE-183, and BDE-209 were baseline-resolved under isocratic conditions in 92:8 methanol/water (v/v). Negative-ion atmospheric pressure photoionization (NI-APPI) with a toluene dopant produced precursor ions corresponding to [M–Br+O]^– for the eight congeners studied. Each congener was quantified by tandem mass spectrometry through a unique multiple reaction monitoring (MRM) transition. On-column limits of detection were between 2.4 and 27.8 pg for the eight congeners studied, with an intra-day method precision of 9%. The LC/NI-APPI/MS/MS method was validated for the analysis of the eight PBDE congeners in NIST SRM 2585 (Organics in House Dust). Pressurized liquid extraction (PLE) with subsequent LC/NI-APPI/MS/MS analysis afforded quantitative recovery for all eight PBDE congeners with recoveries ranging from 92.7 to 113%. The liquid-phase separation of the LC/NI-APPI/MS/MS method is not prone to the thermal degradation issues that plague splitless GC based analyses of highly brominated PBDEs such as BDE-209.     

基于轻质萃取剂的溶剂去乳化分散液-液微萃取-气相色谱法测定水样中多环芳烃

以密度小于水的轻质溶剂为萃取剂,建立了无需离心步骤的溶剂去乳化分散液-液微萃取-气相色谱(SD-DLLME-GC)测定水样中多环芳烃的新方法。传统分散液-液微萃取技术一般采用密度大于水的有机溶剂为萃取剂,并需要通过离心步骤促进分相。而本方法以密度比水小的轻质溶剂甲苯为萃取剂,将其与丙酮(分散剂)混合并快速注入水样,获得雾化体系;然后注入乙腈作为去乳化剂,破坏该雾化体系,无需离心,溶液立即澄清、分相;取上层有机相(甲苯)进行GC分析。考察了萃取剂、分散剂、去乳化剂的种类及其体积等因素对萃取率的影响。以40 μL甲苯为萃取剂,500 μL丙酮为分散剂,800 μL乙腈为去乳化剂,方法在20～500 μg/L范围内呈现出良好的线性(r2=0.9942～0.9999),多环芳烃的检出限(S/N=3)为0.52～5.11 μg/L。用所建立的方法平行测定5份质量浓度为40 μg/L的多环芳烃标准水样,其含量的相对标准偏差为2.2%～13.6%。本法已成功用于实际水样中多环芳烃的分析,并测得其加标回收率为80.2%～115.1%。     

Simultaneous determination of iridoids, phenolic acids, flavonoids, and saponins in Flos Lonicerae and Flos Lonicerae Japonicae by HPLC-DAD-ELSD coupled with principal component analysis

A method, HPLC coupled with diode-array and evaporative light scattering detectors (HPLC-DAD-ELSD), was newly developed to evaluate the quality of Flos Lonicerae (FL) and Flos Lonicerae Japonicae (FLJ), through a simultaneous determination of multiple types of bioactive components. By employing DAD, the detection wavelengths were set at 240 nm for the determination of iridoids, 330 nm for phenolic acids, and 360 nm for flavonoids, respectively. While ELSD, connected in series after DAD, was applied to the determination of saponins. This assay was fully validated with respect to precision, repeatability, and accuracy. Moreover, principal component analysis (PCA) was used for the similarity evaluation of different samples, and it was proven straightforward and reliable to differentiate FL and FLJ samples from different origins. For PCA, two principal components have been extracted. Principal component 1 (PC1) influences the separation between different sample sets, capturing 54.598% variance, while principal component 2 (PC2) affects differentiation within sample sets, capturing 12.579% variance. In conclusion, simultaneous quantification of bioactive components by HPLC-DAD-ELSD coupled with PCA would be a well-acceptable strategy to differentiate the sources and to comprehensively control the quality of the medicinal plants FL and FLJ.     

Determination of organotin compounds (OTC) at low levels in seawater by solid-phase extraction (SPE) and gas chromatography-pulsed flame photometric detection (GC-PFPD)

In this work, a simple, sensitive and affordable analytical method for the simultaneous determination of nine organotin compounds (butyltins, phenyltins and methyltins) in seawater using solid-phase extraction (SPE) and gas chromatography-pulsed flame photometric detection was developed and validated. The performance of three different SPE cartridges (Envi C₁₈, Oasis HLB and Oasis MCX) and three elution solvents of different polarity (hexane, methanol and acetonitrile) was evaluated. The extraction parameters, such as solvent volume, presence of complexing and ion-pairing reagents, sample volume and pH and breakthrough volume, were also investigated. Tributyltin, as the organotin compound of special interest, was efficiently extracted using any of the cartridges and solvents tested. However, the simultaneous extraction of all nine organotin compounds was the most efficient using reversed-phase Envi C₁₈ cartridge and 0.1% (w/v) tropolone in methanol as eluent. The optimised method resulted in good recovery, precision and linearity for all compounds, particularly for tri- and disubstituted species. Method detection limits ranged from 0.22 to 1.27 ng(Sn) L^?1 for butyltins, 0.37 to 4.91 ng(Sn) L^?1 for phenyltins and 0.45 to 1.16 ng(Sn) L^?1 for methyltins. The accuracy of butyltins determination was further verified by the comparison with purchased derivatised standards. The developed method was successfully applied to the environmental samples.     

A Total Solution to Baseline Separation of 20 Brominated Flame Retardant Additives in Electronic Products with Automated Soxhlet Hot Extraction and Gas Chromatography‐Mass Spectrometry

An efficient and reliable separation technique based on automated Soxhlet hot extraction (AHSE) was developed and validated. It can be applied to rapid separations of 20 persistent organic pollutants, including two types of brominated flame retardants (BFRs), polybrominated biphenyls (PBBs) and polybrominated diphenyl ethers (PBDEs) contained in nonmetallic component parts of electronic products. The qualitative chromatographic analyses were carried out by using a gas chromatography coupled with a mass spectrometry detector (GC‐MS). The 20 persistent organic pollutants were simultaneously and completely separated by a 15 meter HP‐5MS short capillary column in 25 minutes. Through the tests of extraction performance, effects of solvent and extraction time on selected BFRs were investigated; toluene and 120 min extraction time were chose as the optimum conditions. Besides, this article examines the influence of temperature on the chromatographic analysis, the optimum temperature parameters were 280 °C and 320 °C for injector and column, respectively. The ASHE‐GCMS method was validated for the analysis of the certified reference material of CRM8110‐a and IRMM310. The limits of detection (LOD) for polymer sample was 0.55‐4.50 μg mL^?1; linearity range from 0.11 to 16 μg mL^?1. The proposed methodology can fully meet the requirement of relational directives.