三聚氰胺在双色谱柱串联模式下的色谱保留研究

研究了亲水相互作用色谱柱串联C_(18)柱上三聚氰胺的色谱保留,并应用牛奶基质中三聚氰胺的高效分离。将HILIC柱与C_(18)柱串联,研究不同色谱柱串联顺序及色谱分离条件下三聚氰胺的保留情况,结果表明:当流动相为乙腈-乙酸铵(10mmol/L)=85∶15(v/v)、柱温30℃、流速0.75mL/min、检测波长220nm、HILIC柱在前C_(18)柱在后串联时,三聚氰胺分离效果最佳。在最佳的色谱条件下,对市售牛奶进行测定,未检测出三聚氰胺,加标回收率在81.1%～119%,三聚氰胺在双柱模式下分析效果良好。     

柱串联色谱法高效测定茶叶中的槲皮素

为了消除常规反相液相色谱法分析槲皮素时复杂样品中的基质干扰,建立了测定茶叶中槲皮素的柱串联色谱法。柱串联技术同时发挥了两种色谱柱的柱效,改善了基质与目标物的分离问题。考察了不同的色谱柱串联模式对茶叶中槲皮素分离的影响,发现HILIC柱串联C18柱时,槲皮素色谱峰附近的基质干扰可降到最小。在该色谱柱串联模式下,进行色谱条件优化,在最佳分离条件下,测得3种茶叶中槲皮素含量分别为42,48,120μg/g,加标回收率为81.5%～111.9%,RSD为3.0%～8.5%。建立的柱串联反相色谱法可以扩展到其他复杂基质样品的分析。     

曲酸的液相色谱分离方法研究及其在化妆品分析中的应用

曲酸是面制品和化妆品中常见的增白剂,由于极性强而给分离带来一定的困难。对不同类型的色谱柱进行分离优化,建立了反相高效液相色谱法高效分离曲酸的方法。对色谱柱的串联顺序及色谱分离条件进行了研究,实验结果表明:在C18柱下,流动相为1%醋酸水溶液-甲醇=93∶7(v/v)、柱温25℃、流速0.7 mL·min^-1、检测波长270 nm,曲酸分离效果最佳。该方法能检测出样品中的曲酸,加标回收率在93.89%～119.11%之间。     

C18柱串联冠醚手性柱高效分离3种芳香族氨基酸对映体

将C18柱与手性冠醚柱串联,建立了一种反相高效液相色谱法用于3种芳香族氨基酸对映体同时拆分的方法.考察了反相色谱流动相的组成、pH值、柱温、流速对对映体拆分的影响.实验结果表明,当流动相为HClO4-乙睛溶液(86:14,V/V,pH 2.0)、柱温20℃、流速0.4 mL/min时,3种氨基酸对映体可获得基线分离.进一步对比了C18柱、冠醚手性柱和串联顺序不同的4种分离模式,结果表明,C18柱不能拆分氨基酸对映体,仅能分离不同种类氨基酸;冠醚手性柱可分离氨基酸映体,但不同种类氨基酸色谱峰出现重叠;串联模式能实现3种氨基酸对映体的基线分离,实现双柱优势互补,而串联顺序对分离影响不大,仅影响色谱峰的峰形.     

硅胶色谱柱的亲水作用保留机理及其影响因素

亲水作用色谱（HILIC）是替代反相色谱（RPLC）分离强极性及亲水性化合物的另一色谱模式,其分离机理与RPLC有很大不同,具有和RPLC互补的选择性。在HILIC模式中,采用正相色谱（NPLC）中的极性固定相及含高浓度有机溶剂（通常为乙腈）的水溶液为流动相。硅胶是开发最早、研究最为深入及应用最为广泛的HILIC固定相,本文介绍了硅胶色谱柱的HILIC保留机理,详细概述了操作条件如硅胶柱类型、流动相组成及柱温对HILIC分离的影响,并对硅胶填料色谱柱的HILIC模式的发展方向与应用前景进行了展望。     

基于混合固定相色谱柱的SPE-HPLC法检测环境水体中三嗪类除草剂

利用混合固定相色谱柱(Optimix SCX/C8)分析了8种三嗪类化合物,在0.01 mol/L乙酸钠缓冲溶液(pH4.2)-CH3CN(75：25,V/V)等度洗脱的流动相条件下,实现了利用液相色谱方法分离同分异构体敌草净和西草净,并对比了相同色谱条件下8种目标物在C8色谱柱上的分离效果;比较了PEP和C18固相萃...     

多功能柱净化-高效液相色谱法检测麦类中赭曲霉毒素A

本文提出了一种采用高效液相色谱/荧光检测法(HPLC/FLD)测定麦类样品中赭曲霉毒素A的方法.样品经V(乙腈):V(水)=84:16提取,多功能柱净化,C18色谱柱(4.6×250 mm,5μm)分离,V(水):V(乙腈):V(乙酸)=102:96:2作流动相,流速1.0 mL/min.结果表明,标准工作液在浓度1.0～50.0μg/L范围内,峰面积与浓度成良好的线性关系,线性相关系数＞0.9999,样品在3.0,10.0,50.0 ng/g添加水平的回收率为60%～85%,相对标准偏差为7.9%～8.8%(n=8),方法检出限为3.0 ng/g(S/N＞10).本法快速、准确、操作简单,可满足大批麦类样品的检测需要.     

亲水相互作用色谱高效分析人尿液中的ATP

建立了亲水相互作用色谱法高效分析人体尿液中三磷酸腺苷(ATP)的方法。ATP是高能磷酸盐化合物,一种不可替代的生物分子。在本文中,分别使用反相色谱柱和亲水相互作用色谱柱测定ATP。结果表明:在亲水相互作用(HILIC)色谱分离模式下,流动相为甲醇-0.1%的甲酸水溶液=10∶90(v/v)、柱温30℃、流速0.4 mL·min~(-1)、检测波长258 nm时,对ATP的分离效果最佳。在此条件下,测定人尿液中的ATP含量,并在部分样品中的检出1.04～1.65 mg·L~(-1)。进一步加标试验的回收率在77.09%～112.83%之间,相对标准偏差低于13.50%。     

蛋白质高效分离两维色谱柱的选择优化

为了构建高效的离子交换/反相二维液相色谱(IEC/RPLC)分离平台系统,提高复杂蛋白质样品的分离效率,对色谱柱进行了评价与筛选。通过对实际人肝蛋白质样品的分离效果的比较,选择确定了TSKgel DEAE-5PW弱阴离子交换色谱柱(WAX)作为第一维色谱分离柱;考察了同一规格的10支代表性反相色谱柱(250 mm×4.6 mm, 5 μm, 30 nm, C4、C8或C18),通过评价其对尿嘧啶、硝基苯、萘和芴的分离性能以及对3种标准蛋白质样品的非特异性吸附、对人肝蛋白质样品的WAX馏分的分离效果,最终确定以Jupiter 300 C4反相色谱柱作为第二维色谱分离柱。对两维色谱柱的选择优化为蛋白质高效分离二维液相色谱平台的搭建提供了可靠基础。     

弱阳离子整体柱在线富集分析尿液中盐酸雷尼替丁

不锈钢柱管中自制弱阳离子交换整体柱作为固相萃取材料,对尿样中盐酸雷尼替丁进行富集分析。以2.5mmol/LK2HPO4缓冲液作为富集流动相,结合柱切换法实现在线富集药物的同时去除尿液中蛋白等内源性物质。色谱分离条件为:C18反相色谱柱,在流速为1.0mL/min,检测波长为320nm条件下,用CH3OH-2.5mmol/LK2HPO4(2:1,V/V)进行洗脱。实验结果表明,盐酸雷尼替丁在0.05～5.0mg/L浓度范围内线性关系良好(r=0.9994,n=7);绝对回收率在75.0%～85.0%之间;检出限为0.01mg/L;日内、日间精密度(RSD)均小于5.0%,能够满足分析测定要求。本方法避免了繁琐的样品预处理过程,且所制弱离子整体柱可多次重复使用,为生物样品中痕量药物检测提供了一种快速、经济和有效的新方法。     

液相色谱串联质谱法测定蔬菜中四聚乙醛残留量

建立了测定蔬菜中四聚乙醛残留量的液相色谱串联质谱方法.蔬菜样品经乙腈提取,盐析后吹干乙腈提取液,再用氟罗里硅土固相萃取小柱净化,用正已烷/丙酮(80:20,V/V)混合溶剂洗脱,氮吹后用乙腈-20mmol/L,乙酸铵溶液(70:30,V/V)溶解后进行仪器分析.分析采用XBridgeTM C18色谱柱分离,乙腈-20m...     

弱阳离子交换整体柱的制备及其对人血浆中硝苯地平的在线分析

以甲基丙烯酸(MAA)为功能单体,乙二醇二甲基丙烯酸酯(EDMA)为交联剂,以色谱柱管为模具,通过原位聚合法制备了弱阳离子交换整体柱。该柱能去除血浆中的内源性物质,对生物样品中的药物有富集作用。将其作为固相萃取柱与C18色谱柱联用,在线分析了人血浆中的硝苯地平。流动相为甲醇-水(体积比为70∶30),流速1.0 mL/min,检测波长235 nm。结果表明,硝苯地平在5.0～75.0 μg/L范围内线性关系良好(r=0.9993),方法的回收率为90.0%～99.0%,日内、日间相对标准偏差均小于5.0%。该方法精密度高,重现性良好,避免了繁琐的样品预处理过程,且弱离子整体柱可多次重复使用,为检测血浆中的痕量药物提供了一种快速、经济、有效的新方法。     

OasisTM小柱用于腐败生物组织中吗啡检测的研究

应用新型亲水亲酯的Oasis^TM固相柱，并使用Zymark全自动固相萃取仪，检测了腐败生物组织中的吗啡。与传统的Cl8固相柱相比，Oasis^TM固相柱具有选择范围广、吸附能力强的特点，其方法操作简单、快速、重现性好及回收率高。所建立的方法适合大批量腐败生物检材的标准化分析测定，并已成功应用于一些案例的检测工作，取得了良好的效果。     

Increased productivity in quantitative bioanalysis using a monolithic column coupled with high-flow direct-injection liquid chromatography/tandem mass spectrometry

The feasibility of using a monolithic column as the analytical column in conjunction with high-flow direct-injection liquid chromatography/tandem mass spectrometry (LC/MS/MS) to increase productivity for quantitative bioanalysis has been investigated using plasma samples containing a drug and its epimer metabolite. Since the chosen drug and its epimer metabolite have the same selected reaction monitoring (SRM) transitions, chromatographic baseline separation of these two compounds was required. The results obtained from this monolithic column system were directly compared with the results obtained from a previously validated assay using a conventional C18 column as the analytical column. Both systems have the same sample preparation, mobile phases and MS conditions. The eluting flow rate for the monolithic column system was 3.2 mL/min (with 4:1 splitting) and for the C18 column system was 1.2 mL/min (with 3:1 splitting). The monolithic column system had a run time of 5 min and the conventional C18 column system had a run time of 10 min. The methods on the two systems were found to be equivalent in terms of accuracy, precision, sensitivity and chromatographic separation. Without sacrificing the chromatographic separation, sensitivity, accuracy and precision of the method, the reduced run time of the monolithic column method increased the sample throughput by a factor of two.     

Establishment of a search library about benzylisoquinoline alkaloids based on selective separation on the binaphthyl column and standard analysis on C18 column

A search library about benzylisoquinoline alkaloids was established based on preparation of alkaloid fractions from Rhizoma coptidis, Cortex phellodendri, and Rhizoma corydalis. In this work, two alkaloid fractions from each herbal medicine were first prepared based on selective separation on the “click” binaphthyl column. And then these alkaloid fractions were analyzed on C18 column by liquid chromatography coupled with tandem mass spectrometry. Many structure‐related compounds were included in these alkaloids fractions, which led to easy separation and good MS response in further work. Therefore, a search library of 52 benzylisoquinoline alkaloids was established, which included eight aporphine, 19 tetrahydroprotoberberine, two protopine, two benzyltetrahydroisoquinoline, and 21 protoberberine alkaloids. The information of the search library contained compound names, structures, retention times, accurate masses, fragmentation pathways of benzylisoquionline alkaloids, and their sources from three herbal medicines. Using such a library, the alkaloids, especially those trace and unknown components in some herbal medicine could be accurately and quickly identified. In addition, the distribution of benzylisoquinoline alkaloids in the herbal medicines could be also summarized by searching the source samples in the library.     

Direct separation of regio- and enantiomeric isomers of diacylglycerols by a tandem column high-performance liquid chromatography

A novel HPLC-based method for direct separation of the three isomers of mono-acid diacylglycerols (DAGs), i.e., 1,2-DAG, 2,3-DAG and 1,3-DAG, has been established. The method employs a tandem column system, in which two different columns (a conventional silica gel column and a chiral stationary phase column) are connected in series. Two isomeric mixtures of DAGs (i.e., dicapryloylglycerol and dioleoylglycerol) and lipase-catalyzed reaction mixtures were successfully resolved on the tandem column HPLC system without any derivatization prior to the analysis. According to the established analytical method, stereoselectivity of two lipases toward mono-acid triacylglycerols in ethanolysis reaction was investigated. The tested enzymes were immobilized Candida antarctica lipase B (CALB) and Rhizomucor miehei lipase (RML). Analyses of the enantiomeric purity of 1,2-DAG and 2,3-DAG, generated as intermediates during the reaction, revealed that CALB and RML have sn-3 and sn-1 stereopreference, respectively.     

Simultaneous determination of capecitabine and its metabolite 5-fluorouracil by column switching and liquid chromatographic/tandem mass spectrometry

A liquid chromatographic/tandem mass spectrometric method was developed and validated for the quantitation of capecitabine and its metabolite 5-fluorouracil in human plasma. The simultaneous determination of both analytes was achieved by a column switching method using a trapping column and two analytical columns with different stationary phases. Isocratic elution was used for the separation of capecitabine on a C18 column whereas 5-fluorouracil was separated using gradient elution on an non-polar carbon phase. The calibration curves were linear for both compounds with a correlation factor (R2) > 0.9993 for 5-fluorouracil and >0.9942 for capecitabine. The assay was validated in the concentration range 5.00-1000 ng ml(-1) for both compounds. The intra-day precision was better than 10% for 5-fluorouracil and better than 11% for capecitabine whereas the inter-day precision was better than 8% for 5-fluorouracil and better than 14% for capecitabine.     

盘式固相萃取–超高效液相色谱–串联质谱法快速测定环境水样中3种微囊藻毒素

建立盘式固相萃取–超高效液相色谱–串联质谱(UPLC–MS–MS)快速测定环境水样中3种微囊藻毒素(MCs)的方法。环境水样经过盘式固相萃取柱净化,采用Waters BEH C_(18)色谱小柱,以乙腈–0.2%甲酸水溶液为流动相,梯度洗脱分离后,UPLC–MS–MS多级监测正离子模式下外标法进行定性定量分析。3种微囊藻毒素在0.05~10.0μg/L范围内呈现良好线性关系,相关系数均大于0.999 4,方法检出限为0.02 ng/L。对同一环境样品进行0.1,1.0,5.0μg/L 3种浓度的加标回收试验,平均回收率为82.8%~108.8%,测定结果的相对标准偏差为2.1%~10.1%(n=6)。该方法快速、灵敏、准确,可有效应用于环境水样中微囊藻毒素的监测。     

Rapid analysis of triazolopyrimidine sulfoanilide herbicides in waters and soils by high-performance liquid chromatography with UV detection using a C18 monolithic column

In this work, the simultaneous analysis of five triazolopyrimidine sulfoanilide herbicides (flumetsulam, florasulam, metosulam, cloransulam-methyl, and diclosulam) by HPLC using UV detection and a C18 monolithic column is proposed. The mobile phase which was composed of ACN, water, and formic acid was pumped at a high flow rate (5 mmL/min) providing an analysis time of all the compounds in less than 2.3 min. The LODs were in the low microg/L range (i.e. between 60 microg/L for flumetsulam and 90 microg/L for florasulam) and the calibration curves showed good linearity (R2 > 0.9949). The method was applied to the analysis of these compounds in spiked mineral and tap waters and soils after an SPE preconcentration procedure using C18 cartridges. Mean recovery values ranged between 35 and 110% for water samples providing LODs of the whole procedure in the low ng/L level, down to 280 ng/L, and between 77 and 92% for soil samples with LODs down to 9.38 microg/kg. This is the first time that this family of pesticides is simultaneously analyzed in both types of samples by HPLC and also using a monolithic column.