离子交换树脂对长春花中文多灵、长春质碱和长春碱的富集研究

通过D-113、110、D-151、NKC-9、001x7、D-072、D-062离子交换树脂对长春花中文多灵、长春质碱和长春碱的静态吸附容量、吸附率和解吸率等指标的考察,筛选出最佳树脂为D-151.对文多灵、长春质碱和长春碱的吸附容量分别为118.2mg/mL、102.2mg/mL和2.6mg/mL,并进一步考察其富集长春花3种生物碱的吸附和解吸附性能,确定了最佳的工艺条件和参数.吸附:上样溶液浓度为0.41mg生药/mL, pH为6.0,流速为3mL/min;解吸附:洗脱剂为20%乙醇除杂,90%乙醇(含2%氨水)洗脱.结果表明,经D-151离子交换树脂富集的长春花总生物碱中文多灵、长春质碱和长春碱的含量分别提高到34.53%、22.31%和5.86%,比传统溶剂萃取方法分别提高了2.34、3.49和2.07倍,回收率均在90%以上,D-151离子交换树脂可以用来富集长春花中的生物碱成分.     

离子色谱法测定婴幼儿配方奶粉中的核苷酸

建立了婴幼儿配方奶粉中5种核苷酸的离子色谱检测方法。分离柱为IonPac AS16柱,以KOH为流动相,梯度洗脱,流速为1.0 mL/min,柱温为25 ℃,检测波长为260 nm,进样量为25 μL。在上述条件下,胞嘧啶核苷酸(CMP)、腺嘌呤核苷酸(AMP)、尿嘧啶核苷酸(UMP)、次黄嘌呤核苷酸(IMP)、鸟嘌呤核苷酸(GMP)的质量浓度分别为0.09～50、0.06～50、0.06～50、0.09～50、0.06～50 mg/L时与对应色谱峰面积之间的线性关系良好,检出限分别为0.03、0.02、0.02、0.03和0.02 mg/L,回收率为92.5%～104.0%。该方法简便、快速、准确,可用于实际样品的测定。     

高效液相色谱-蒸发光散射检测法测定藜芦中的介藜芦碱和藜芦胺

建立了高效液相色谱-蒸发光散射检测(HPLC-ELSD)测定藜芦中介藜芦碱、藜芦胺含量的方法,并对4种藜芦属药材样品进行了测定。采用的色谱柱为Kromasil C18柱(250 mm×4.6 mm, 5 μm),以乙腈和0.1%三氟乙酸水溶液为流动相进行梯度洗脱,洗脱程序为:0～5 min, 20%乙腈; 5～30 min, 20%乙腈～40%乙腈, 30～40 min, 40%乙腈～20%乙腈; 40～45 min, 20%乙腈;流速为0.8 mL/min;柱温为35 ℃;采用ELSD检测,漂移管温度为98 ℃,载气流速2.2 L/min 。介藜芦碱和藜芦胺的线性范围分别为42.05～980 mg/L和43.77～1020 mg/L;平均回收率分别为99.2%和101.4%,相对标准偏差分别为1.7%和2.1% (n=6);信噪比为3时,测得介藜芦碱和藜芦胺最低检测限分别为18.37 mg/kg和21.50 mg/kg。该方法快速简便、灵敏度和分离度好,适用于藜芦药材中活性生物碱的测定。     

HPLC法同时测定石蒜中加兰他敏和石蒜碱

建立了高效液相色谱同时测定石蒜中加兰他敏和石蒜碱含量的方法。 采用phenomenex-C18色谱柱,以乙腈(A)-0.1%TFA水溶液(B)为流动相梯度洗脱,检测波长289 nm。 结果表明,加兰他敏和石蒜碱均在0.5～10 mg/L(r=0.9999)呈现良好的线性关系,最低检测限(S/N=3)分别为0.09和0.15 mg/L,平均加样回收率分别为99.53%和96.82%。 该方法简单、快速、准确,适合于石蒜中加兰他敏和石蒜碱的测定。     

高效液相色谱法测定大气颗粒物中的杂环胺

建立了大气颗粒物中杂环胺的高效液相色谱检测方法.采用ODS C18色谱柱(250 mm×4.6 mm, 5 μm),乙腈-0.01 mol/L三乙胺缓冲溶液(pH 4.0 )为流动相,非线性梯度洗脱,流速1.0 mL/min,柱温30 ℃,紫外检测波长263 nm,并优化荧光激发和发射波长条件,实现了6种杂环胺的基线分离和4种杂环胺的高灵敏度荧光检测.本方法中荧光和紫外检测器的检出限分别为0.0018～0.0084 mg/L和0.093～0.609 mg/L(S/N=3),相关系数在0.9920～0.9999之间,RSD小于5.9%,平均回收率为75.3%～111.6%,回收率相对标准偏差为1.7%～2.3%,具有较高的精确度和准确度.     

高效液相色谱法同时测定苏木中的巴西苏木素和原苏木素B

建立了同时测定苏木中巴西苏木素和原苏木素B的高效液相色谱检测方法。采用Agela Venusil XBP-C18(4.6 mm×150 mm,5μm)色谱柱,以甲醇-0.2%甲酸溶液为流动相,梯度洗脱,流速1.0 mL/min,测定温度为35℃,检测波长285 nm。巴西苏木素和原苏木素B的质量浓度均在0.005～1.0 mg/mL时与色谱峰面积之间线性关系良好,相关系数都为0.9999;回收率范围分别为96.7%～101.4%和99.4%～103.0%,相对标准偏差(RSD)为2.0%和1.3%。该法可以用于苏木药材的鉴定。     

高效液相色谱法同时测定罗汉果中的六种葫芦烷三萜类皂苷

建立了高效液相色谱测定罗汉果中罗汉果苷Ⅴ、罗汉果苷ⅣA、罗汉果苷Ⅲ、11-氧化罗汉果苷Ⅲ、罗汉果苷ⅡE和11-氧化罗汉果苷ⅡE等6种苷类化合物含量的方法。采用的色谱条件：ZORBAX SB-C18色谱柱(150 mm×4.6 mm, 5 μm);柱温30 ℃;以水(A相)和乙腈(B相)为流动相,梯度洗脱程序：0～3 min,20%B～30%B;3～8 min,30%B～35%B;8～9 min,35%B;流速0.8 mL/min;检测波长203 nm;进样量10 μL。结果表明,以上6种苷类化合物分别在0.04～1.0 mg/mL、0.011～0.68 mg/mL、0.010～0.80 mg/mL、0.0097～0.58 mg/mL、0.025～1.0 mg/mL、0.013～0.76 mg/mL范围内线性关系良好(r＞0.9991)。加标回收率依次为99.65%,101.6%,97.05%,103.1%,99.25%和103.0%;相对标准偏差分别为0.83%,3.1%,1.9%,3.3%,0.59%和2.0%。该方法简便、快速、准确,适用于罗汉果原材料及其制品中苷类化合物的检测和含量测定。     

金银花不同部位中绿原酸和木犀草苷含量的测定

利用HPLC法测定金银花不同部位中绿原酸和木犀草苷。采用ODS-C18色谱柱(250 mm×4.6 mm,5μm),以甲醇-水(0.03 mol/L磷酸)为流动相进行梯度洗脱,流速:1.0 mL/min,检测波长:350 nm,柱温:室温。绿原酸浓度在0~0.4 mg/mL内与峰面积呈良好线性关系(r2=0.999 6),回收率为101.9%~105.2%,相对标准偏差为3.18%(n=6)。木犀草苷浓度在0~0.1 mg/mL内与峰面积呈良好线性关系(r2=0.999 1),平均回收率为100.5%~104.0%,相对标准偏差为3.42%(n=6)。结果表明:金银花、芽等部位绿原酸和木犀草苷的含量较高。     

超高效液相色谱法同时测定布洛芬注射液中布洛芬和精氨酸的含量

建立了一种同时测定布洛芬注射液中布洛芬和精氨酸含量的超高效液相色谱方法。精氨酸与衍生化试剂2,4-二硝基氟苯(DNFB)反应后,与布洛芬同时在超高效液相色谱-二极管阵列检测器(UPLC-PDA)上检测。采用BEH C18色谱柱(50 mm×2.1 mm, 1.7 μm),以乙腈-0.05 mol/L磷酸二氢钾缓冲液(pH 2.5)为流动相进行梯度洗脱,流速为0.4 mL/min,柱温为30 ℃,检测波长分别为357 nm(精氨酸衍生物)和220 nm(布洛芬)。结果表明,布洛芬与精氨酸分别在2.0～100.5 mg/L和1.7～84.5 mg/L范围内呈良好的线性关系,相关系数(r)均为0.9997;平均回收率分别为99.8%和99.6%,相对标准偏差(RSDs)分别为0.37%和0.25%;定量限(信噪比（S/N）=10)分别为0.1 ng和0.2 ng;检出限(S/N=3)分别为0.03 ng和0.05 ng。本方法快速、准确,重复性好,可较全面地评价布洛芬注射液的质量。     

高效液相色谱法同时测定复方南板蓝根片中秦皮乙素和菊苣酸

建立高效液相色谱同时测定复方南板蓝根片中秦皮乙素和菊苣酸含量的方法。采用XBridge C₁₈色谱柱(250 mm×4.6 mm,5μm)分离，流动相为乙腈-0.3%磷酸溶液，梯度洗脱，流量为1 mL/min，检测波长为330 nm，柱温为40℃，进样体积为10μL，以色谱峰面积外标法定量。秦皮乙素和菊苣酸的质量浓度分别在18.40～184.02、4.96～49.61 g/mL范围内与色谱峰面积的线性关系良好，相关系数均为0.999 9。秦皮乙素、菊苣酸测定结果的相对标准偏差分别为0.72%、0.54%(n=6)，平均回收率分别为97.40%、98.45%。该方法操作简单，重复性好，准确度高。     

Simultaneous determination of vinblastine and its monomeric precursors vindoline and catharanthine in Catharanthus roseus by capillary electrophoresis-mass spectrometry

Catharanthus roseus is an important dicotyledonous medicinal plant that contains various anticancer components, such as vinblastine (VLB) and its monomeric precursors (vindoline and catharanthine). A capillary electrophoresis-mass spectrometry (CE-MS) approach for the simultaneous determination of three components was developed in this work. Baseline separation for three components was achieved by using a running buffer consisting of 20 mM ammonium acetate and 1.5% acetic acid in <20 min. Quantification of three components was assigned in positive-ion mode at a protonated molecular ion [M+H](+). The CE-MS method was validated for linearity, sensitivity, accuracy and precision, and then used to determine the content of the above components. The detection limits of VLB, catharanthine and vindoline are 0.8, 0.1 and 0.1 μg/mL, respectively. The precision was not more than 4.54% and the mean recovery of the analytes was 95.04-97.04%. The CE-MS method was successfully applied to determine VLB and its monomeric precursors in real sample C. roseus.     

Liquid chromatography mass spectrometry simultaneous determination of vindoline and catharanthine in rat plasma and its application to a pharmacokinetic study

Vinblastine and vincristine, both of which are bisindole alkaloids derived from vindoline and catharanthine, have been used for cancer chemotherapy; their monomeric precursor molecules are vindoline and catharanthine. A simple and selective liquid chromatography mass spectrometry method for simultaneous determination of vindoline and catharanthine in rat plasma was developed. Chromatographic separation was achieved on a C₁₈ (2.1 × 50 mm, 3.5 µm) column with acetonitrile–0.1% formic acid in water as mobile phase with gradient elution. The flow rate was set at 0.4 mL/min. An electrospray ionization source was applied and operated in positive ion mode; selective ion monitoring mode was used for quantification. Mean recoveries were in the range of 87.3–92.6% for vindoline in rat plasma and 88.5–96.5% for catharanthine. Matrix effects for vindoline and catharanthine were measured to be between 95.3 and 104.7%. Coefficients of variation of intra‐day and inter‐day precision were both <15%. The accuracy of the method ranged from 93.8 to 108.1%. The method was successfully applied in a pharmacokinetic study of vindoline and catharanthine in rats. The bioavailability of vindoline and catharanthine were 5.4 and 4.7%, respectively. Copyright © 2014 John Wiley & Sons, Ltd.     

Simultaneous quantification of some pharmaceutical Catharanthus roseus leaf and root terpenoid indole alkaloids and their precursors in single runs by reversed-phase liquid chromatography

A new, rapid, sensitive, and reproducible reversed-phase liquid chromatographic (LC) method with photodiode array detection is described. It allows, in a single run of 30 min, simultaneous separation of 6 pharmaceutically and biologically important Catharanthus roseus leaf and root terpenoid indole alkaloids (TIAs) and 3 of their precursors: TIA precursors tryptophan, tryptamine, and loganine; and TIAs serpentine, catharanthine, ajmalicine, vincristine, vinblastine, and vindoline. The method involves the use of a Phenomenex Luna 5 microm, C18 column (250 mm x 4.6 mm id) and a linear binary gradient mobile phase profile. Detection is performed at 220 and 254 nm, which provided good absorptivity for all of the roseus compounds listed above and gave a minimum detection limit of 0.02 microg/mL. The extraction efficiency, peak purity, and homogeneity parameters of the profiles could be validated using a photodiode array detector. The method was successfully used to quantify major components of leaf and root extracts of C. roseus accessions. The new method thus provides a reliable tool for rapid screening of C. roseus samples in large numbers, which is needed in breeding/genetic engineering and genetic mapping experiments and for monitoring the reaction products, in the in vitro/in vivo conversions of precursors into products, and vice versa.     

Isolation of Catharanthus alkaloids by solid-phase extraction and semipreparative HPLC

A combination of moderate-pressure chromatography on C18 sorbent and preparative HPLC is developed for rapid isolation of alkaloids from Catharanthus roseus. The procedure is optimized for vindoline and catharanthine with respective yields of 3 and 2 mg per 1 g of dried leaves of the plant. The methodology is also applied for identification of the above and other alkaloids from cultured plant cells.     

Isolation of indole alkaloids from Catharanthus roseus by centrifugal partition chromatography in the pH-zone refining mode.

Centrifugal partition chromatography (CPC) in the pH-zone refining mode allowed a preparative and efficient isolation of vindoline, vindolinine, catharanthine and vincaleukoblastine from a crude mixture of Catharanthus roseus alkaloids. The separation protocol was tested with a synthetic mixture of vindoline, catharanthine and vincaleukoblastine. The fraction content was analyzed and the results compared with theoretical chromatograms obtained by numerical simulation. The increase in injected sample mass results in an improvement of the purity of the isolated compounds. This observation, confirmed by theory, is of prime importance for the development of preparative pH-zone refining CPC as a preparative separation method.     

Simultaneous determination of vincristine, vinblastine, catharanthine, and vindoline in leaves of catharanthus roseus by high-performance liquid chromatography

A simple reversed-phase liquid chromatographic method is developed for the simultaneous quantitation of the anticancerous drugs vincristine, vinblastine, and their precursors catharanthine and vindoline using a Merck Chromolith Performance reversed-phase high-performance liquid chromatography column. A better resolution is obtained in comparison with available particulate-type C18 columns. The column provides good reproducibility and peak symmetry. Chromatography is carried isocratically with a mobile phase of acetonitrile-0.1M phosphate buffer containing 0.5% glacial acetic acid (21:79, v/v; pH 3.5) at a flow rate of 1.2 mL/min and UV detection at 254 nm. Parameters such as linearity, limits of quantitation (LOQ) and detection (LOD), precision, accuracy, recovery, and robustness are studied. The method is selective and linear for alkaloid concentration in the range 0.25 microg-25 microg/mL. The LOQ and LOD are 25, 46, 56, and 32 microg/mL and 8, 14, 18, and 10 microg/mL, respectively. The results of accuracy studies are good. Values for coefficient of variation are 2.50, 1.82, 1.33, and 1.13, respectively. The percent recovery of the alkaloids was found to be 96%, 97%, 98%, and 98%, respectively. Peak purity and homogeneity of these compounds in plant extract is studied using a photodiode-array detector. This simple and rapid method of analysis is applied for the determination of these alkaloids in a large number of leaf extracts of Catharanthus roseus..     

Synthesis and study of a molecularly imprinted polymer for the specific extraction of indole alkaloids from Catharanthus roseus extracts

Two molecularly imprinted polymers (MIP) for catharanthine and vindoline have been synthesized in order to specifically extract these natural indole alkaloids from Catharanthus roseus by solid-phase extraction (SPE). Each MIP was prepared by thermal polymerisation using catharanthine (or vindoline) as template, methacrylic acid (or itaconic acid) as functional monomer, ethylene glycol dimethacrylate (EDMA) as cross-linking agent and acetonitrile (or acetone) as porogenic solvent.For catharanthine-MIP, a SPE protocol (ACN–AcOH 99/1 washing and MeOH–AcOH 90/10 elution) allows a good MIP/NIP selectivity (imprinting factor 12.6). The specificity of catharanthine-MIP versus related bisindole alkaloids was assessed by cross-reactivity study. The catharanthine-MIP specifically retained catharanthine and its N-oxide analogue but displayed a weak cross-reactivity for other Vinca alkaloids (vinorelbine, vincristine, vinblastine, vindoline, vinflunine). It appears that the catharanthine-like unit of these molecules are hardly trapped in catharanthine cavities located in the MIP, probably due to the sterical hindrance of the vindoline moiety. Finally, the MIP-SPE applied to C. roseus extract enabled quantitative recovery of catharanthine (101%) and the total removal of vindoline. Its capacity was determined and was equal to 2.43 μmol g⁻¹.Vindoline is a weaker base than catharanthine, so the vindoline-MIP was achieved with a strong acidic monomer (itaconic acid) to increase vindoline–monomer interactions and a modified washing solvent (ACN–HCOOH 99/1) to reduce non-specific interactions. The influence of the amount of HCOOH (protic modifier) percolated during the washing step upon the elution yield and the imprinting factor for vindoline was investigated. This preliminary optimisation of the washing step, and in particular the number of moles of acid percolated, seems useful to emphasize the use of MIP in conditions of high selectivity or high yield. A compromise was obtained with an imprinting factor equal to 7.6 and an elution recovery of 33%. However MIP-vindoline failed to achieve a specific extraction of vindoline since catharanthine was also extracted probably because of strong non-specific interactions occurring between catharanthine and the sorbent.     

Negative-Pressure Cavitation Extraction of Four Main Vinca Alkaloids from <em>Catharanthus </em><em>r</em><em>oseus</em> Leaves

In the present study, an improved method termed negative-pressure cavitation extraction (NPCE) followed by reverse phase high-performance liquid chromatography (RP-HPLC) was developed for the extraction and quantification of vindoline (VDL), catharanthine (CTR), vincristine (VCR) and vinblastine (VLB) from Catharanthus roseus leaves. The optimized method employed 60-mesh particles, 80% ethanol, a negative pressure of -0.075 MPa, a solid to liquid ratio of 1:20, 30 min of extraction and three extraction cycles. Under these optimized conditions, the extraction yields of VDL, CTR, VCR and VLB are 0.5783, 0.2843, 0.018 and 0.126 mg/g DW, respectively. These extraction yields are equivalent to those from the well-known ultrasonic extraction method and higher than the yields from maceration extraction and heating reflux extraction. Our results suggest that NPCE-RP-HPLC represents an excellent alternative for the extraction and quantification of vinca alkaloids for pilot- and industrial-scale applications.     

PHOTOCHEMICAL ONE-POT SYNTHESIS OF VINBLASTINE and VINCRISTINE

The naturally occurring cytostatic dimer alkaloids vinblastine 1 and vincristine 2 were photochemically synthesized in slightly acidic aqueous solution from the monomer alkaloids catharanthine 3 and vindoline 4. Multi-centre reactions should obviously be involved and some of the principal photochemistry-associated phenomena here discussed are quite likely to be characteristic even to the biosynthetic reactions yielding vinblastine 1 and vincristine 2 in the cells of Catharanthus roseus.