组合表面活性剂-盐-水双水相体系萃取水杨酸和洛美沙星

通过实验选择聚乙二醇(PEG1500)与聚乙烯吡咯烷酮(PVP30000)组合表面活性剂(NH4)2SO4-H2O形成双水相体系及其成相条件。研究水杨酸(APC)和洛美沙星(LFXC)氢键型药物在该双水相体系中的分配行为。结果表明：该体系对APC和LFXC的萃取率分别为102％和69．0％。通过药物在该体系中的紫外吸收光谱及分子荧光光谱的变化,验证其萃取药物的机理。     

食品中99种兽药的一步式提取净化体系

建立了99种禁限用兽药的一步式提取净化体系,并通过高效液相色谱-四极杆/静电场轨道阱高分辨质谱（UHPLC-Q-Orbitrap HRMS）对其效果进行了评价。该提取净化体系基于载体辅助液液萃取技术,通过一次性前处理,完成常见的理化性质差异很大的8大类共计99种兽药残留的提取、净化工作,同时结合四极杆静电场轨道阱高分辨质谱实现了99种兽药残留的一步式多残留筛查。采用此体系对样品禁限用兽药进行测定分析,结果表明,该方法对液态乳、猪肉、鱼类等食品基质具有较强的适用性,检测的99种兽药线性范围为0.001~0.1 μg/mL,定量限为0.5~20.0 μg/kg,加标回收率为60%~120%,相对标准偏差小于15%。该方法的前处理和仪器分析过程对不同理化性质的化合物的兼容性强,检测效率高,可操作性强,检出限能满足所有受试的目标物,并且大大降低了检测成本。     

A Unified Sample Preparation System for Extraction of Various Analyte/Matrix Combinations

A supercritical fluid extraction/enhanced solvent extraction system (SFE/ESE) was used to remove polar and non-polar analytes from various matrices. Extraction of environmental pollutants from soil, additives from low density polyethylene, sulfa drugs from animal tissue, and drug from tablet was performed using both SFE and ESE. Results showed that a single instrumental system can be used to perform both ESE with organic solvents and SFE with carbon dioxide-based fluids. Each method has its own unique advantages and applications. The ability to carry out both solvent extraction and supercritical fluid extraction with one system has obvious economical advantages.     

Liquid-liquid Extraction System Based on Non-ionic Surfactant-salt-H_2O and Mechanism of Drug Extraction

The utilization of solid-liquid extraction system based on polymer-(NH4)2SO4 -H2O on separation of metal ions and bio-active substances has been summarized1. Cloud point extraction (CPE) benefits the environment and has been used in separation of metal chelates, biomacromolecules and in pretreatment of environmental samples2-4. In a 10 mL color comparison tube 20% PEG-1000 and 2.5 g (NH4)2SO4 were chosen as phase separation condition at pH 5.5. The average extraction efficiencies we…     

Study on PEG-（NH4）2SO4 Aqueous Two-Phase System and Distribution Behavior of Drugs

The distribution behavior of chlorpromazine hydrochloride (CPZ), procaine hydrochloride (PCN) and procaine amide hydrochloride (PCNA) in polyethylene glycol (PEG800 or PEG1500)-(NH4)2SO4 aqueous two-phase systems has been investigated. The result shows that the PEG-(NH4)2SO4 aqueous two-phase system has potential extraction capability in small molecular drug separation. In PEG800-(NH4)2SO4 system, the extraction efficiencies (E) of CPZ, PCN and PCNA amount to 92.8%, 74.5% and 74.4%, respectively, with the distribution coefficients (KD) being 25.7, 5.9 and 5.8, correspondingly. In PEG1500-(NH4)2SO4 system, the extraction efficiencies (E) of CPZ,PCN and PCNA are 93.7%, 71.3% and 63.2%, respectively, with distribution coefficients (KD) of 39.6, 6.6 and 5.0,correspondingly. Based on the study on ultraviolet and fluorescence spectra and also distribution behavior of the drugs in PEG-(NH4)2SO4 aqueous two-phase system, extraction mechanism was further proposed that both hydrogen bond and hydrophobic interaction are involved in extraction.     

Separation and determination of selected psychotropic drugs in human serum by SPE/HPLC/DAD on C18 and Polar-RP columns

A simple and sensitive high-performance liquid chromatographic method with diode array detection is described for the quantification of some psychotropic drugs: fluoxetine, sertraline, alprazolam, perphenazine, zolpidem, and hydroxyzine in fortified human serum samples. The test compounds were extracted from human serum by solid-phase extraction using C18 extraction column and injected into C18 or Polar-RP analytical columns for separation. A mobile phase was composed of methanol, water, acetate buffer at pH 3.5, and diethylamine. The method was validated for the concentration range 0.4–5?µg?mL^?1 for zolpidem and 0.5–6?µg?mL^?1 for other drugs. Mean recoveries were from 87.79% to 107.94% with adequate precision (% RSD ≤2.1%). The full separation of all investigated drugs, good peaks’ symmetry, and simultaneously high system efficiency were obtained on Polar-RP column, which was used for the first time to analyze these drugs. System efficiency obtained on the column was significantly higher compared to that obtained on commonly used C18 column. The method seems to be suitable for the analysis of investigated drugs in human plasma for psychiatric patients in multiple drug overdoses as well as for control of pharmacotherapy, particularly in combination therapy.     

Determination of three kinds of banned drugs in milk powder by hybrid solid‐phase extraction purification combined with gas chromatography and mass spectrometry

A gradient clean‐up method for the quantification of five kinds of banned drugs (two hormones, two sedatives, and one chloramphenicol) in milk powder was developed. We used the combination of solid‐phase extraction purification with gas chromatography and mass spectrometry. Milk powder was initially hydrolyzed by β‐glucuronidase/arylsulfatase, and then the hydrolyzed solution was concentrated and purified using a C₈ and cation resin solid‐phase extraction column. To isolate hormones and chloramphenicol drugs, products from the previous step were diluted with methanol and further purified using a silica and diatomite solid‐phase extraction column. After derivatization, the drugs were analyzed by gas chromatography with mass spectrometry, and the hydrolyzed solution was diluted with 5% ammoniated methanol to purify sedatives before gas chromatography with mass spectrometry analysis. Results showed that after adding the banned drugs at concentrations of 0.3–10.0 μg/kg, the average recovery range was 78.2–97.3% with relative standard deviations of 5.3–12.5%. The limit of quantification of the banned drugs (S/N ≥ 10) was 0.3–5.0 μg/kg, whereas the limit of detection (S/N ≥ 3) was 0.1–2.0 μg/kg. The solid‐phase extraction gradient purification system was simple, rapid, and accurate, and could satisfy the detection requirements of hormone, sedatives, and chloramphenicol drugs when used together with gas chromatography and mass spectrometry.     

An HPLC fluorescence detection system for amines

A detection system is described which is based on fluorescent ion-pair formation between tertiary amine drugs and dimethoxyanthracene sulphonate. A dynamic micro-extraction principle is then used to isolate the ion-pairs from the excess reagent. The band broadening of this extraction detector was kept below 20% using standard auto-analyser equipment. With the enhanced selectivity and sensitivity of this approach it was possible to analyse chloropheniramine in urine at ppb concentrations using a pre-column clean-up trace enrichment step.     

Fast liquid chromatography for the determination of drugs in plasma and combination with liquid-solid extraction in a fully automated system.

Fast liquid chromatography was applied to the assay of several drugs in plasma. Short columns, 3.3-4 cm long, packed with C18 material, 3 microns particle size, were used. The peaks were little subject to extra-column band-broadening because the investigated drugs were eluted with high capacity factors in order to obtain an adequate separation from plasma components. The main influences on efficiency were the response time of the detector and the solvent composition of the injected sample. Conventional apparatus was used. A fully automated analytical system combining liquid-solid extraction via disposable extraction columns and fast liquid chromatography on a small-dimensioned 3 microns particle size column is described for the assay of drugs in plasma. Automation was accomplished by using the Automatic Sample Preparation with Extraction Columns system.     

食品中46种禁限用合成色素的分级提取净化体系研究

建立了46种禁限用合成色素的分级提取净化体系,采用反相液相色谱多波长检测对该体系的效果进行了评价。提取净化体系的第一级采用正己烷振荡提取、凝胶渗透色谱净化,实现了对苏丹类染料的有效提取分离,回收率均大于80%;第二级采用水振荡提取,乙腈辅助提取的手段,实现了对大多数水溶性合成色素及工业染料的提取分离,回收率均大于60%;第三级采用甲醇-氨水振荡提取,可实现对少数极性较强染料的提取分离,回收率均大于55%。经过第二、三级提取后的样品,无需再净化,即可直接进行高效液相色谱分析,提高了分析效率。采用此体系对样品进行合成色素的测定分析,结果表明,本方法对含蛋白质、脂肪类食品基质具有较强的适用性。     

微流控液液萃取-液液波导集成化分析系统

利用溴化1-丁基-3-甲基咪唑离子液体/碳酸钠溶液双水相体系,实现了多相层流液液萃取.以具有较高折射率的离子液体为液芯,较低折射率的盐溶液为包层,实现了液液波导吸光度检测.据此建立了一种液液萃取与液液波导检测集成化的微流控分析系统.该系统对甲酚红试样的萃取率在93%以上,对甲酚红试样检测的线性范围为0.01~0.40 mg/m L,相对标准偏差为3.4%(n=11),检出限为3.8μg/m L(3σ).该系统将萃取分离与液液波导长光程吸光度检测集成在一起,为拓展吸光度检测在微流控系统中的应用提供了新思路.     

A high performance liquid chromatographic post-column fluorescent ion pair extraction system: application to physostigmine and its metabolite eseroline in human serum

A high performance liquid chromatographic post-column fluorescent ion pair extraction system was developed for the analysis of quaternary ammonium and amine drugs in serum. A new fluorescent ion pair reagent, sodium alpha-(3,4-dimethoxyphenyl) cinnamonitrile-2'-sulfonate (DPS), was synthesized and characterized. The post-column extraction system consisted of a three-dimensional knitted teflon mixing coil and a membrane phase separator which was modified from an original literature design. Physostigmine and its metabolite eseroline were used as model cations. A solid phase extraction procedure using octadecylsilane columns was developed to extract the compounds and neostigmine bromide (internal standard) from human serum. The compounds were chromatographed on a diol column using a 80:20 aqueous phosphate buffer pH 4 absolute methanol mobile phase at a flow rate of 1 mL/min. Methylene chloride was used as the on-line extraction solvent for the DPS ion pairs formed. Fluorescence of the extracted ion pairs was measured using an excitation of 243 nm and an emission cut-off filter at 418 nm. Linearity was in the 2-100 ng/mL and 5-100 ng/mL ranges for physostigmine and eseroline, respectively. Detection limits based on a signal-to-noise ratio of 2, were 2 and 5 ng/mL, respectively. Precision of the method was found to be in the 1.5-3% range and percentage error in the 1.5-7% range for both compounds.     

In-tube solid phase microextraction using a beta-cyclodextrin coated capillary coupled to high performance liquid chromatography for determination of non-steroidal anti-inflammatory drugs in urine samples

A configuration of in-tube solid-phase microextraction (SPME) coupled to HPLC was constructed by using a pump and a six-port valve combined with a PEEK tube as the pre-extraction segment. The extraction capillary was fixed directly on the HPLC six-port valve to substitute for the sample loop. The whole system could be handled easily to perform accurate on-line extraction, and the possible inaccurate quantification caused by sample/mobile phase mixing when using an autosampler could be eliminated.A β-cyclodextrin coated capillary, prepared by sol-gel method, was used as the extraction capillary for in-tube SPME. Three non-steroidal anti-inflammatory drugs, ketoprofen, fenbufen and ibuprofen, were employed to evaluate the extraction performance of the capillary. After optimizing the extraction conditions, satisfactory extraction efficiency was obtained and detection limits for ketoprofen, fenbufen and ibuprofen in diluted urine samples were 38, 18 and 28 ng/mL, respectively. The extraction reproducibility was evaluated with intra-day and inter-day precision, and the R.S.D.s obtained were lower than 4.9 and 6.9%, respectively. The capillary was proved to be reusable and the extraction efficiency did not decrease after 250 extractions.     

亲水醇/盐-水双液相体系萃取赤霉素的研究

由异丙醇/硫酸铵-水溶液组成的醇盐-水双液相萃取体系,可用于植物激素赤霉素的提取。研究了醇盐比、体系pH及赤霉素浓度对萃取结果的影响。结果表明在醇盐比(异丙醇/硫酸铵)为1.5mL/4.3g,体系酸度为pH4.0,赤霉素浓度小于0.064g/L时,赤霉素在该体系的一步提取率可达93.47%,富集倍数为11.36。发酵液中常含的氯化钠和葡萄糖,在最佳实验条件下对赤霉素的提取没有影响。用紫外、红外色谱等方法证实,异丙醇提取的赤霉素结构稳定,纯度高。绿豆发芽生长实验表明,该体系提取的赤霉素生物活性不变。     

On‐chip electromembrane extraction of acidic drugs

In the present work, a new supported liquid membrane (SLM) has been developed for on‐chip electromembrane extraction of acidic drugs combined with HPLC or CE, providing significantly higher stability than those reported up to date. The target analytes are five widely used non‐steroidal anti‐inflammatory drugs (NSAIDs): ibuprofen (IBU), diclofenac (DIC), naproxen (NAX), ketoprofen (KTP) and salicylic acid (SAL). Two different microchip devices were used, both consisted basically of two poly(methyl methacrylate) (PMMA) plates with individual channels for acceptor and sample solutions, respectively, and a 25 µm thick porous polypropylene membrane impregnated with the organic solvent in between. The SLM consisting of a mixture of 1‐undecanol and 2‐nitrophenyl octyl ether (NPOE) in a ratio 1:3 was found to be the most suitable liquid membrane for the extraction of these acidic drugs under dynamic conditions. It showed a long‐term stability of at least 8 hours, a low system current around 20 µA, and recoveries over 94% for the target analytes. NPOE was included in the SLM to significantly decrease the extraction current compared to pure 1‐undecanol, while the extraction properties was almost unaffected. Moreover, it has been successfully applied to the determination of the target analytes in human urine samples, providing high extraction efficiency.     

Determination of basic drugs of abuse in human serum by online extraction and LC–MS/MS

A new quantitation method for the determination of drugs of abuse (opiates, amphetamine and derivatives, cocaine, methadone and metabolites) in serum by using online extraction coupled to liquid chromatography (LC)–mass spectrometry (MS)/MS has been developed. The online extraction is carried out using two extraction columns simultaneously and one analytical column. One extraction column is loaded, while the other one is eluted by a gradient. The elution gradient also separates the analytes in the analytical column. For the sample preparation, serum is spiked with a mixture of deuterated analogues of the drugs. After protein precipitation with methanol/zinc sulphate, centrifugation, evaporation and reconstitution, the sample is injected into the LC system. The quantitation is based on the analysis of two multiple reaction monitoring transitions per drug. The recovery of the protein precipitation step is over 80% for all analytes. Intra- and interday precision, as relative standard deviation, is lower than 6%, and in the case of accuracy, RE is lower than 15%. Only the most polar analytes showed matrix effects. The limits of quantitation for the analysed compounds vary between 0.5 and 2.8 ng/mL. The developed method was used to quantify basic drugs in samples “from driving under the influence of drugs” cases. The results were compared with those obtained by using solid-phase extraction–GC–MS.     

Investigation of a liquid-liquid extraction system based on non-ionic surfactant-salt-H2O and mechanism of drug extraction

Based on the investigation of a non-ionic surfactant-salt-H₂O liquid-liquid extraction system, general rules concerning salt selection are concluded and the mechanism of phase separation is explained. The extraction behavior of chlorpromazine hydrochloride (CPZ) and procaine hydrochloride (PCN) in such a system is studied. Research shows that the extraction efficiency of CPZ can amount to 96% by twice extraction, which means that quantitative extraction is realized, while that of PCN is 77%. This system produces distribution coefficients (K_D) of 12.3 and 2.6, respectively, for CPZ and PCN. Extraction mechanism is deduced according to ultraviolet absorbance; and molecular fluorescence spectra change of the drugs in the system studied.     

Simultaneous determination of acidic and basic drugs using dual hollow fibre electromembrane extraction combined with CE

The simultaneous extraction of acidic and basic drugs from biological samples is a significant challenge for sample preparation. A novel and efficient method named dual hollow fibre electromembrane extraction combined with CE was applied for the simultaneous extraction and preconcentration of acidic and basic drugs in a single step. Under applied potential of 40 V during the extraction, ibuprofen as an acidic drug and thebaine as a basic drug migrated from a 4 mL aqueous sample solution at neutral pH into 20 μL of each basic (pH 12.5) and acidic (pH 2.0) acceptor phase, respectively; 1‐octanol and 2‐nitrophenyl octyl ether were immobilised in the pores of anodic and cathodic hollow fibres as supported liquid membranes, respectively. A Box–Behnken design and the response surface methodology were used for the optimisation of different parameters on the extraction efficiency. Under the optimised conditions, the enrichment factors were between 150 and 170 and also the LODs ranged from 3 to 7 ng/mL in different samples. The method was reproducible so that intra‐ and inter‐day RSDs% (n = 5) were less than 5.9%. Finally, the method was successfully applied for the simultaneous extraction and determination of acidic and basic drugs from plasma and urine samples.     

HPLC-MS法同时测定5种抗癫痫药的血药浓度

癫痫是神经系统的一种常见病,不少患者需长期同时服用两种或两种以上抗癫痫药物.本研究采用高效液相色谱-电喷雾离子化质谱法同时测定5种常用抗癫痫药物卡马西平、氯硝西泮、阿普唑仑、艾司唑仑和苯妥英钠的血药浓度,色谱条件为以地西泮作为内标,Zorbax SB-C18(30mm×2.1mm,3.5μm)为色谱柱,甲醇-25mM的乙酸铵水溶液梯度洗脱,样品采用无水乙醚萃取.样品分析以离子阱质谱作为检测器,采用多重反应监测模式(MRM),选择MS2离子提高方法的专属性,5种抗癫痫药物在50～5000ng/mL浓度范围内均具有良好的线性关系,其日内、日间精密度均小于10%,方法回收率均大于90%.研究表明,本方法专属性强,灵敏度高,线性关系良好,适用于这5种抗癫痫药物的血药浓度监测、个体化给药方案的制定、药物滥用监测以及药代动力学研究.关键词高效液相色谱质谱抗癫痫药血药浓度药物分析     

Screening of drugs of abuse and toxic compounds in human whole blood using online solid‐phase extraction and high‐performance liquid chromatography with time‐of‐flight mass spectrometry

A novel method for the screening of 151 drugs of abuse and toxic compounds in human whole blood has been developed and validated by online solid‐phase extraction with liquid chromatography coupled to time‐of‐flight mass spectrometry. Analytes were extracted and separated by using a fully automated online solid‐phase extraction liquid chromatography system with total chromatographic run time of 26 min. Time‐of‐flight mass spectrometry screening of 151 drugs of abuse and toxic compounds was performed in a full‐scan (m/z 50–800) mode using an MS^E acquisition of molecular ions and fragment ions data at two collision energies (one was 6 eV and another one was in the range of 5–45 eV). The compounds were identified based on retention times and exact mass of molecular ions and fragment ions. The limit of detection ranged from 1 to 100 ng/mL and the recovery of the method ranged from 6.3 to 163.5%. This method is proved to be a valuable screening method allowing fast and specific identification of drugs in human whole blood.