聚苯乙烯凝胶色谱柱分离头孢呋辛钠聚合物杂质

建立了聚苯乙烯基质的凝胶色谱柱系统对头孢呋辛钠中聚合物杂质(或称缩合物杂质)的分离分析方法.凝胶色谱柱为MKF-GPC-100柱(100 mm×7.8 mm,5 μm),流动相为0.01 mol/L的磷酸盐缓冲液(pH 7.0)-乙腈(70:30,体积比),流速1.0 mL/min,检测波长254 nm.头孢呋辛钠与其...     

液相色谱/质谱联用分离鉴定小肽混合物

1　实验部分　　仪器与试剂:德国BrukerEsquire3000高效液相色谱 电喷雾 离子阱多级质谱仪(HPLC ESI MS/MS);甲醇、乙腈为色谱纯,三氟乙酸(TFA)、十二烷基磺酸钠(SDS)为分析纯。色谱条件:色谱柱为MicrosorbODS柱(4 6mmi d ×250mm,5μm);检测波长,210nm;流动相为乙腈 水(含0 05%TFA,1mmol/LSDS)溶液(体积比为35∶65);流速0 4mL/min。质谱条件:ESI离子源,正离子检测模式,喷雾电压为4000V,毛细管温度为365℃,喷雾气(N2)压力为172 25kPa(25psi);干燥气(N2)流速为7L/min。2　结果与讨论2.1　小肽的合成　　采用文献[1,2]的方法,…     

高效液相色谱-质谱法对饲料及食品添加剂中三聚氰胺的测定

建立了饲料中三聚氰胺的高效液相色谱-质谱测定方法.色谱条件:Kromasil C18柱(4.6 mm×250mm,5 μm),流动相:乙腈-0.1%(体积分数)甲酸(体积比5:95),流速0.4 mL/min.采用正离子模式的电喷雾质谱检测,以一级质谱得到的准分子离子m/z 127作为母离子,进行碰撞诱导解离(CID)二级质谱(MS2)分析,选择母离子和MS2的碎片离子m/z 85、109定性确证,提取m/z 85、109、127三个离子质量色谱峰面积定量.实验优化了质谱条件.线性范围为0.01～0.5 mg/L,检出限0.01 mg/L(S/N=3),回收率为80%～99%.     

高效液相色谱手性流动相添加剂法拆分氯噻酮对映体

应用反向高效液相色谱,以羟丙基-β-环糊精(HP--βCD)作为手性流动相添加剂,拆分了氯噻酮(Chlorthalidone)对映体。对主要的影响因素如羟丙基-β-环糊精浓度、流动相pH值、三乙胺(TEA)、甲醇、柱温、流速等进行了系统研究,建立了羟丙基-β-环糊精流动相添加剂法拆分氯噻酮对映体的方法。使用HarbonLichrospher-C18色谱柱(5μm,150 mm×4.6 mm),流动相为V(甲醇)∶V(水相)=20∶80(水相含30 mmol/L HP--βCD0、.1 mol/L Na2HPO4、体积分数2%的TEA、pH5),流速为0.8 mL/min,室温下拆分,氯噻酮对映体可得到良好分离。     

奶粉中高氯酸盐的液相色谱-串联质谱测定

建立了奶粉中高氯酸盐的液相色谱-串联质谱(LC-MS/MS)测定方法.奶粉样品用水-乙腈(体积比1:2)超声波振荡提取2次,于4 000 r/min离心后,上清液经Oasis HLB固相萃取小柱净化;采用离子交换色谱分离,色谱柱为METROSEP A Supp 5(150 mm×4.0 mm)阴离子交换柱,流动相为0.2 mol/L乙酸铵溶液-乙腈(体积比1 : 1),流速0.7 mL/min;电喷雾负离子模式电离,质谱多反应选择离子检测(MRM),检测离子对为 m/z 99→83和m/z 101→85,其中m/z 99→83为定量离子对.方法的相对标准偏差为3.59%,回收率为91% ～106%,检出限为1.0 μg/kg,定量下限为5.0 μg/kg.结果表明,该法简便快速、准确可靠,也适用于鲜牛奶、酸牛奶等其他乳制品中高氯酸盐的测定.     

反向模式-强阳离子交换-反向模式二维色谱法测定人血浆中甲氨蝶呤浓度

建立了反向模式-强阳离子交换-反向模式(Reversed phase-strong cation exchange-reversed phase)二维色谱平台测定人血浆中甲氨蝶呤浓度的方法。样品经三氯醋酸沉淀蛋白后,在ASTON C8一级柱(100 mm×4.6 mm,5μm)上完成初分离,通过六通阀切换,经ASTON SCX中间级(20 mm×4.6 mm,5μm)二次分离和储存,在SAC C8二级柱(100 mm×4.6 mm,5μm)上完成最后分离,并测定。一级柱流动相为10 mmol/L醋酸铵-乙腈(90∶10,V/V,以醋酸调至p H 3.8),流速为1.0 m L/min;中间级流动相为10 mmol/L H3PO4溶液(p H 3.0);二级柱流动相为50 mmol/L醋酸铵-乙腈(87∶13,V/V,以醋酸调至p H 5.2),流速为1.2 m L/min,检测波长306 nm。单次分析时间4 min,线性范围0.09~5.1μmol/L,检出限为0.005μmol/L,日内RSD小于1.8%,日间RSD小于3.5%,相对回收率99.1%~101.25%,绝对回收率85.7%~86.4%。本方法简便、准确,适合日常血药浓度监测和药代动力学研究。     

酸糖蛋白手性柱分离6种手性化合物

通过考察缓冲液种类、浓度及其pH值对对映体在手性柱上的保留和分离行为的影响,以及流动相中加入不同种类、不同浓度的不带电荷的有机溶剂乙腈、甲醇、正丙醇、异丙醇、流动相流速和柱温对对映体分离能力的影响,优化了含碳手性中心的碱性药物苯丙哌林、酸性化合物MT-A5及MT-酸和含硫手性中心的质子泵抑制剂奥美拉唑、泮托拉唑、雷贝拉唑对映体分离条件,最佳手性分离条件为:苯丙哌林,0.05 mol/L磷酸二氢铵缓冲液(pH 3.0)-乙腈(95∶5,V/V)为流动相,流速为0.7 mL/m in,柱温为20℃;MT-A5及MT-酸,流动相为0.01 mol/L醋酸铵缓冲液(pH 5.0)-乙腈(74∶26,V/V),流速为0.9 mL/m in,柱温为20℃;泮托拉唑,流动相为10 mmol/L醋酸铵缓冲液(pH 5.5)-乙腈(93∶7,V/V),流速为0.9 mL/m in;柱温为20℃;奥美拉唑和雷贝拉唑,流动相为0.01 mol/L醋酸铵缓冲液(pH 3.0)-乙腈(95∶5,V/V),流速为0.7 mL/m in,柱温为20℃。实现了应用高效液相色谱法在α1-酸糖蛋白手性柱上对上述化合物的对映体分离,并成功用于手性药物合成中的对映体过量百分率的测定。     

反相高效液相色谱测定依替巴肽注射液中氨基酸的含量

采用异硫氰酸苯酯为柱前衍生化试剂,结合反相高效液相色谱技术,建立了定量分析依替巴肽注射液中氨基酸组分的检测方法。优化色谱条件,选用Agilent XDB-C18色谱柱(5μm,150 mm×4.6 mm),以0.1 mol/L醋酸钠(冰醋酸调至pH 6.0)-乙腈(90∶10)为流动相A,乙腈为流动相B,梯度洗脱方式,检测波长为254 nm,流速为1.0 mL/min,进样体积为5μL,柱温为30℃。结果表明,在优化条件下,各氨基酸能实现有效分离,且在1.23～3.68 mmol/L浓度范围内,各氨基酸的线性关系良好,相关系数(r)为0.999 1～0.999 6。该方法显示了良好的准确性、重复性、稳定性及选择性,能对依替巴肽注射液中的氨基酸实现准确定量分析。     

金属硫蛋白的色谱/电喷雾电离质谱联用表征方法

通过反相液相色谱(RPLC)与电喷雾电离质谱(ESI-MS)的联用技术,对镉诱导金属硫蛋白标准物质MT-1和MT-2的结构进行表征分析。采用Vydac C8 反相色谱柱(250 mm×2.1 mm i.d., 5 μm, 30 nm),流动相A为pH 6.0的5 mmol/L乙酸铵水溶液,流动相B为pH 6.0的5 mmol/L乙酸铵的甲醇-水(体积比为1∶1)溶液,流动相流速为0.20 mL/min,在40 min内流动相B的体积分数从10%增加到37.5%进行梯度洗脱。分别用紫外(UV)和ESI-M     

离子色谱法同时测定那屈肝素钙中氯离子和硫酸根离子的含量

建立了一种抑制电导检测器离子色谱法同时测定那屈肝素钙中氯离子和硫酸根离子含量的方法.采用强阴离子交换柱,3 mmol/L碳酸钠溶液为流动相,流速2.0 mL/min,柱温30℃,进样量25μL,检测器为配有化学抑制器的电导检测器.结果表明,氯离子和硫酸根离子在1～20μg/m L浓度范围内线性关系良好,氯离子线性方程为...     

Determination of amphetamine in rat brain by in vivo microdialysis and ion-pairing liquid chromatography with electrospray tandem mass spectrometry

An ion-pairing liquid chromatography/electrospray tandem mass spectrometry (LC/ES-MS/MS) method with in vivo microdialysis for the determination of amphetamine in rat brain has been developed. A microdialysis probe was surgically implanted into the striatum of the rat and artificial cerebrospinal fluid (aCSF) was used as the perfusion medium. Samples were collected and then analyzed off-line by LC/ES-MS/MS. A reversed-phase C18 column was employed for LC separation and MS/MS was utilized for detection. Trifluoroacetic acid (TFA) was added to the mobile phase (acetonitrile/water) as an ion-pairing reagent. Detection was by ES-MS/MS directly, and no post-column addition of organic modifier was needed. Dual linear ranges were determined from 0.1-0.5 microg/mL and 0.005-0.1 microg/mL, respectively. The detection limit, based on a signal-to-noise ratio of 3, was 0.001 microg/mL (5 nM). Good precision and accuracy were obtained. The applicability of this newly developed method was demonstrated by continuous monitoring of amphetamine concentrations in rat brain. Amphetamine reached a maximum concentration of 0.086 +/- 0.017 microg/mL over 20-40 min after a single 3.0 mg/kg intraperitoneal administration.     

Validation of a stability-indicating RP-LC method for the assessment of recombinant human interleukin-11 and its correlation with bioassay

A stability-indicating reversed-phase liquid chromatography (RP-LC) method was validated for the assessment of recombinant human interleukin-11 (rhIL-11), based on the ICH guidelines. The method was carried out on a Jupiter C(4) column (250 mm × 4.6 mm i.d.), maintained at 25°C. The mobile phase A consisted of 0.1% trifluoroacetic acid (TFA) and the mobile phase B was acetonitrile with 0.1% TFA, run at a flow rate of 1 mL/min, and using a photodiode array (PDA) detection at 214 nm. Separation was obtained with a retention time of 27.6 min, and was linear over the concentration range of 1-200 μg/mL (r(2) = 0.9995). Specificity was established in degradation studies, which also showed that there was no interference of the excipients. The accuracy was 100.22% with bias lower than 1.25%. Moreover, the in vitro cytotoxicity test of the degraded products showed non-significant differences (p > 0.05). The method was applied to the assessment of rhIL-11 and related proteins in biopharmaceutical dosage forms, and the results were correlated to those of a bioassay.     

成骨细胞膜色谱/超高效液相色谱-飞行时间质谱法快速筛选六味地黄汤抗骨质疏松活性成分

采用成骨细胞建立了细胞膜色谱/超高效液相色谱-飞行时间质谱（CMC/UPLC-TOF/MS）的分析方法。该法可快速筛选中药方剂六味地黄汤中潜在的抗骨质疏松活性成分，通过细胞试验和斑马鱼骨质疏松模型试验验证了筛选结果梓醇的体内外药效作用。以六味地黄汤水提物（90 g/L）为样品，通过CMC/UPLC-TOF/MS分析，快速鉴别细胞膜色谱柱保留成分群，高选择性获取六味地黄汤中16种潜在活性成分。该文以前沿色谱法分析梓醇、丹皮酚、齐墩果酸与细胞膜色谱固定相的亲和强度，选择亲和强度和含量较高的梓醇进行体内外药效验证，发现梓醇在对小鼠成骨细胞有显著促生长作用，能提高骨质疏松斑马鱼头部骨矿化面积。CMC/UPLC-TOF/MS筛选方法能在复杂中药方剂中快速得到抗骨质疏松活性成分，具有操作简便、快速、高效灵敏的优势。     

电动流动分析的色谱分离研究

建立了一种基于增压电渗泵驱动、整体柱分离和紫外检测相结合的电动流动分析系统。研究了载流溶液中甲醇的体积分数对电渗泵空载流量、输出压强、移动相流量和分离度的影响。在4950V的外加电压下,以含0.5mmol/L六亚甲基四胺的45%甲醇溶液为泵载流,电渗泵的流量和输出压强分别为0.58mL/min和0.79MPa,以泵载流为流动相,该系统对苯和萘进行了反相色谱分离。电动流动分析系统设备简单、操作方便、功能多样。对苯和萘的分离结果表明,电动流动分析系统可用于样品的色谱分离。     

Analysis of neomycin sulfate and framycetin sulfate by high-performance liquid chromatography using evaporative light scattering detection

A rapid and simple method for the determination of main components and related substances of both neomycin sulfate and framycetin sulfate by HPLC and evaporative light scattering detection (ELSD) is described. The method was also used to determine the neomycin B and the sample sulfate content. Detection and quantitation of aminoglycoside antibiotics are problematic because of the lack of UV absorbing chromophore. The use of a universal detector avoids the need for sample derivatization or use of specific detector based on pulsed amperometry described to be difficult in routine assays. Separation was performed with a Polaris C18 150 mm x 4.6 mm i.d., 3 microm reversed-phase column with a solution of 170mM trifluoroacetic acid (TFA) mobile phase at a flow rate of 0.2 mL/min. The chromatographic parameters were optimized with the help of experimental design software. Mass spectrometry (MS) was employed to confirm the ELSD profile. The final method was validated using methodology described by the International Conference of Harmonization in the field of Active Pharmaceutical Ingredients. Commercial samples of different sources were analyzed and results were in good agreement with specifications of the European Pharmacopoeia.     

Development of a novel method based on liquid chromatography-evaporative light scattering detection for the direct determination of streptomycin and dihydrostreptomycin in raw materials, pharmaceutical formulations, culture media and plasma

A novel method for the non-derivatization liquid chromatographic determination of streptomycin (STR) and dihydrostreptomycin (DHSTR) was developed and validated based on evaporative light scattering detection (ELSD). Utilizing a ThermoHypersil BetaBasic C18 analytical column, evaporation temperature of 50 degrees C and pressure of nebulizing gas (nitrogen) of 3.5 bar, the optimized mobile phase was 1.25 mL L(-1) TFA aqueous solution, in an isocratic mode at a rate of 1.0 mL min(-1). STR was eluted at 5.6 min and DHSTR at 7.8 min with a resolution of 4.4. Linear calibration curves were obtained from 2 to 120 microg mL(-1) (r > 0.9990) for STR and 2-75 microg mL(-1) (r > 0.9994) for DHSTR, with a LOD equal to 0.7 and 0.5 microg mL(-1), respectively. The developed method was applied for the assay of STR and DHSTR (sulfate) in pharmaceutical raw materials and formulations, while the simultaneous direct determination of sulfate was feasible (tR = 2.5 min, LOD = 1.4 microg mL(-1), double logarithmic calibration curve in the range of 4-50 microg mL(-1), r > 0.9998). Modified isocratic mobile phase (H2O-ACN, 90:10, v/v, containing 1.25 mL L(-1) TFA), was used for the determination of streptomycin B impurity in STR sulfate raw material and a gradient mobile phase (H2O-ACN containing TFA) was used for the determination of DHSTR in the presence of penicillinG procaine. The developed method was also applied for the assay of commercial formulations (STR powder and DHSTR injection solution and suspension) (%recovery 98-102, %RSD < 1.3, n = 3 x 3), for the determination of STR in bacteria culture medium (%recovery 99.6, %RSD = 0.8, n = 3 x 3), and for the determination of DHSTR in human plasma (2.0-23.0 microg mL(-1)) after solid phase extraction using carboxylate cartridges (%recovery 98.4-101.8, %RSD = 3.2, n = 3 x 3).     

Direct-injection high performance liquid chromatography ion trap mass spectrometry for the quantitative determination of olanzapine,clozapine and N-desmethylclozapine in human plasma

A specific and sensitive direct-injection high performance liquid chromatography electrospray ionization tandem mass spectrometry (HPLC/ESI-MS/MS) method has been developed for the rapid identification and quantitative determination of olanzapine, clozapine, and N-desmethylclozapine in human plasma. After the addition of the internal standard dibenzepin and dilution with 0.1% formic acid, plasma samples were injected into the LC/MS/MS system. Proteins and other large biomolecules were removed during an online sample cleanup using an extraction column (1 x 50 mm i.d., 30 microm) with a 100% aqueous mobile phase at a flow rate of 4 mL/min. The extraction column was subsequently brought inline with the analytical column by automatic valve switching. Analytes were separated on a 5 microm Symmetry C18 (Waters) analytical column (3.0 x 150 mm) with a mobile phase of acetonitrile/0.1% formic acid (20:80, v/v) at a flow rate of 0.5 mL/min. The total analysis time was 6 min per sample. The inter- and intra-assay coefficients of variation for all compounds were <11%. By eliminating the need for extensive sample preparation, the proposed method offers very large savings in total analysis time.     

HPLC‐DAD method for the simultaneous determination of zofenopril and hydrochlorothiazide in oral pharmaceutical formulations

An HPLC method with DAD detection was developed and validated for the simultaneous determination of zofenopril and hydrochlorothiazide in tablets. The separation was carried out through a gradient elution using an Agilent LiChrospher C18 column (250×4.0 mm id, 5 μm) and a mobile phase consisting of (A) water–TFA (99.9:0.1 v/v) and (B) acetonitrile–TFA (99.1:0.1 v/v) delivered at a flow‐rate of 1.0 mL/min. 8‐Chlorotheophylline was used as internal standard. Calibration curves were found to be linear for the two drugs over the concentration ranges of 5.0–40 and 1.0–20 μg/mL for zofenopril and hydrochlorothiazide, respectively. Linearity, precision, accuracy, specificity and robustness were determined in order to validate the proposed method, which was further applied to the analysis of commercial tablets. The proposed method is simple and rapid, and gives accurate and precise results.     

Highly sensitive determination of Schisandrin and Schisandrin B in plasma of rats after administration of Wurenchun (Fructus Schisandrae Chinensis Extracts) preparations by LC‐ESI‐MS/MS

A sensitive and specific method based on liquid chromatography‐tandem mass spectrometry using electrospray ionization (LC‐ESI‐MS/MS) has been developed for the determination of Schisandrin and Schisandrin B in rat plasma. A 100 μL plasma sample was extracted by methyl tert‐butyl ether after spiking the samples with nimodipine (internal standard) and performed on an XTerra®MS‐C₁₈ column (150 mm × 2.1 mm, 3.5 μm) with the mobile phase of acetonitrile–water–formic acid (80:20:0.2, v/v) at a flow rate of 0.2 mL/min in a run time of 8.5 min. The lower limit of quantification of the method was 40 ng/mL for Schisandrin and 20 ng/mL for Schisandrin B. The method showed reproducibility with intra‐day and inter‐day precision of less than 13.8% RSD, as well as accuracy, with inter‐ and intra‐assay accuracies between 93.5 and 107.2%. Finally, the LC‐ESI‐MS/MS method was successfully applied to study the pharmacokinetics of Schisandrin and Schisandrin B in rats after administration of Wurenchun commercial formulations to rats. Copyright © 2009 John Wiley & Sons, Ltd.     

Peptide mapping with liquid chromatography using a basic mobile phase

A new peptide mapping with liquid chromatography (LC) using an ammonia-containing basic mobile phase was reported. As compared with a method under a traditional acidic condition with a mobile phase containing trifluoroacetic acid (TFA) or formic acid (FA), the new method exhibited excellent overall performance: it was advantageous over the TFA method in terms of the ultraviolet (UV) and mass spectrometry (MS) sensitivities and the sequence coverage for a tryptic map; it was superior to the FA method in terms of the UV sensitivity, the sequence coverage and the separation capacity. Due to a significant difference in the chromatographic selectivity, several important peptide mapping applications that were sometimes difficult to be conducted previously could now be carried out using the new method. For example, the baseline separation of peptides from the corresponding deamidated products could be achieved with confidence using the new method, a critical pre-requisite for definitive identification and quantification of the deamidation products with LC/MS. No on-column deamidation was observed with the conditions used for the separation. Complementary and confirmative information about a protein could be obtained by running its proteolytic digest under both the basic and acidic conditions.