High-performance liquid chromatography with nuclear magnetic resonance detection--A method for quantification of alpha- and gamma-linolenic acids in their mixtures with free fatty acids

While many naturally occurring mixtures of free fatty acids are conveniently analyzed by hyphenated technique of LC-NMR, a complete separation of alpha- and gamma-linolenic acids for their quantitative determination appears impossible at least by the methods of reversed phase HPLC. However, they can be differentiated and quantified from 1H NMR spectra measured in the course of isocratic acetonitrile-chloroform (90:10, with C8 and C18 columns in series) LC-NMR analysis without the need for any derivatization.     

6-oxy-(acetyl piperazine) fluorescein as a new fluorescent labeling reagent for free fatty acids in serum using high-performance liquid chromatography

A new fluorescein-based fluorescent derivatizating reagent, 6-oxy-(acetyl piperazine) fluorescein (APF), has been designed, synthesized and developed for carboxylic acid labeling. It was used as a pre-column derivatizing reagent for the determination of seven free fatty acids (lauric acid, myristic acid, arachidonic acid, linoleic acid, palmitic acid, oleic acid, and stearic acid) with high-performance liquid chromatography (HPLC). The derivatization reaction of APF with seven fatty acids was completed at 60 degrees C for 1 h using 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide (EDC) as the condensing reagent. On a C18 column, the derivatives of APF with seven free fatty acids could be separated completely in 22 min using a mobile phase of methanol-water (88:12, v/v) containing 7 mmol L(-1) pH 6.5 Na2HPO4-H3Cit3 buffer with fluorescence detection at lambdaex/lambdaem=467/512 nm. The detection limits could reach 0.1-6.4 nmol L(-1) (signal-to-noise=3). This reagent was applied to the determination of the free fatty acids in human serum samples with satisfying recovery efficiencies varying from 93 to 105%.     

血清总磷脂脂肪酸组分的固相萃取-气相色谱法分析

以硅胶基质为固定相,建立了固相萃取-气相色谱(SPE-GC)分离检测血清总磷脂中脂肪酸含量的方法。优化了SPE的洗脱方式及甲醇洗脱量,探讨了衍生化步骤的优化条件。该法对磷脂中各脂肪酸组分测定的线性相关系数约为0.999,回收率在80%左右;日内误差小于4.8%,日间误差小于8.9%。用固相萃取柱分离磷脂简单、快速、有效,用气相色谱检测磷脂中脂肪酸组分方法稳定、可靠。     

Rapid analysis of free medium-chain fatty acids and related ethyl esters in beer using SPE and HRGC

A modification of a procedure by Hage [1] is proposed for the gas chromatographic evaluation of the content of free medium-chain fatty acids and related ethyl esters in beer. The method involves extraction of free fatty acids and ethyl esters by SPE using C₁₈ bonded phase columns, derivatization of free fatty acids and related ethyl esters with diazomethane, and GC analysis using an SP-2340 capillary column. The results obtained have shown the method to be rapid and highly reproducible. The technique has been compared with other methods used for determination of free fatty acids.     

Simultaneous separation and sensitive determination of free fatty acids in blood plasma by high-performance liquid chromatography

Fatty acids are separated by reversed-phase high-performance liquid chromatography after derivatization with a fluorescence reagent, 4-bromomethyl-7-acetoxycoumarin. Each derivative eluted from a column is successively hydrolysed by mixing it with an alkaline solution, and the produced fluorescence is detected. The derivatives of series of both saturated and unsaturated fatty acids (C6:0--C20:4) are simultaneously separated by a continuous gradient elution method using a methanol-based solvent containing acetonitrile. The quantitative detection of fatty acids is over a range of 5-1000 pmol per derivatization mixture. This method is applicable to the quantitative analysis of free fatty acids in normal human blood samples and blood samples from diabetic patients. Ten microliters of blood plasma are sufficient to carry out the determination. The analytical results show good recovery and good reproducibility. This sensitive method is very useful for the analysis of fatty acids in very low concentrations.     

荧光衍生化试剂2-(4-羧基苯基)-4,5-萘并咪唑的合成及在HPLC测定醇类中的应用

 合成了一种用于醇类分析的高灵敏度的荧光衍生化试 剂2-(4-羧基苯基)-4,5-萘并咪唑(CNI),将其在二氯甲烷中于80 ℃条件下与醇缩合成酯 ,并采用RP-HPLC法进行分离检测,色谱柱为Zorbax Bp C8柱(250　mm×4.6　mm i.d.) ,流动 相为V(乙腈)∶V(甲醇)=90∶10的溶液,荧光检测波长λex 345 nm, λem 485　nm。同时,测定了人血清中的胆固醇,其最低检出质量浓度为1.0 μg /L。     

A fluorimetric liquid chromatography for highly sensitive analysis of very long chain fatty acids as naphthoxyethyl derivatives

Summary A simple and sensitive liquid chromatographic method is described for the simultaneous determination of biologically important very long chain fatty acids (docosanoic, tetracosanoic and hexacosanoic acids) as fluorogenic derivatives. The method is based on the derivatization of the fatty acids with 2-(2-naphtoxy)ethyl 2-(piperidino)ethanesulfonate (NOEPES) in toluene in the presence of potassium carbonate and 18-crown-6. Several parameters affecting the derivatization were studied, including reaction temperature, reaction time, reaction solvent, base catalyst and the amount of the reagent. The resulting derivatives were analyzed by HPLC with fluorimetric detection (λex=235 nm; λem=366 nm). The linear range for the determination of docosanoic, tetracosanoic and hexacosanoic acids was 0.028–1.4 μM with a detection limit of about 5.6 nM (S/N=3) (56 fmol per 10 μL injection). Application of the method to the analysis the non-esterified (free) very long chain fatty acids spiked in plasma proved feasible.     

A Simple and Rapid High Performance Liquid Chromatographic Method with Fluorescence Detection for the Estimation of Amikacin in Plasma ‐ Application to Preclinical Pharmacokinetics

A simple and sensitive reversed‐phase liquid chromatographic method has been developed for the determination of amikacin by derivatization. The method is based on the pre‐column derivatization of amikacin with 9‐fluorenylmethyl chloroformate (FMOC‐Cl). Isepamicin was used as the internal standard. The derivatization reaction proceeds in aqueous solution at room temperature with a borate buffer of pH 7.3. The formation of the corresponding derivative of amikacin is instantaneous and it is stable for more than 48 h. Detection was performed by fluorescence. Several factors influencing the derivatization reaction yields were studied and optimized. The system offered the following analytical parameters: limit of detection (LOD) of 90 ng mL^?1 (3σ), linear correlation coefficient of 0.9998 and linear range response from 0.45 to 21.60 μg‐mL^?1. The precision of the method was < 6%. As a preliminary application, the method has been successfully applied to the amikacin determination in parenteral pharmaceutical formulations.     

Headspace single-drop microextraction with in-drop derivatization and capillary electrophoretic determination for free cyanide analysis

A new method involving headspace single-drop microextraction (SDME) with in-drop derivatization and CE is developed for the preconcentration and determination of free cyanide. An aqueous microdrop (5 microL) containing Ni(II)-NH(3) (as derivatization agent), sodium carbonate and ammonium pyromellitate (as internal standard) was used as the acceptor phase. The extracted cyanide forms a stable Ni(CN)(4) (2-) complex which is then determined by CE. Common experimental parameters (sample and acceptor phase pH, extraction temperature, extraction time and sample ionic strength) affecting the extraction efficiency were investigated. Using headspace SDME, free cyanide can be effectively extracted from the neutral solutions, i.e. without the acidification of the sample which often is prone to errors due to incomplete liberation and artefactual cyanide production. Proposed SDME-CE method provided about 58-fold enrichment in 20 min. The calibration curve was linear for concentrations of CN(-) in the range from 0.25 to 20 micromol/L (R(2) = 0.997). The LOD (S/N = 3) was estimated to be 0.08 micromol/L of CN(-). Such a detection sensitivity is high enough for free cyanide determination in common environmental and physiological samples. Finally, headspace SDME was applied to determine free cyanide in human saliva and urine samples with spiked recoveries in the range of 91.7-105.6%. The main advantage of this method is that sample clean-up, preconcentration and derivatization procedures can be completed in a single step. In addition, the proposed technique does not require any sample pretreatment and thus is much less susceptible to interferences compared to existing methods.     

Determination of chlorophenols in water samples using simultaneous dispersive liquid-liquid microextraction and derivatization followed by gas chromatography-electron-capture detection

Simultaneous dispersive liquid-liquid microextraction (DLLME) and derivatization combined with gas chromatography-electron-capture detection (GC-ECD) was used to determine chlorophenols (CPs) in water sample. In this derivatization/extraction method, 500 microL acetone (disperser solvent) containing 10.0 microL chlorobenzene (extraction solvent) and 50 microL acetic anhydride (derivatization reagent) was rapidly injected by syringe in 5.00 mL aqueous sample containing CPs (analytes) and K(2)CO(3) (0.5%, w/v). Within a few seconds the analytes derivatized and extracted at the same time. After centrifugation, 0.50 microL of sedimented phase containing enriched analytes was determined by GC-ECD. Some effective parameters on derivatization and extraction, such as extraction and disperser solvent type and their volume, amount of derivatization reagent, derivatization and extraction time, salt addition and amount of K(2)CO(3) were studied and optimized. Under the optimum conditions, enrichment factors and recoveries are in the range of 287-906 and 28.7-90.6%, respectively. The calibration graphs are linear in the range of 0.02-400 microg L(-1) and limit of detections (LODs) are in the range of 0.010-2.0 microg L(-1). The relative standard deviations (RSDs, for 200 microg L(-1) of MCPs, 100 microg L(-1) of DCPs, 4.00 microg L(-1) of TCPs, 2.00 microg L(-1) of TeCPs and PCP in water) with and without using internal standard are in the range of 0.6-4.7% (n=7) and 1.7-7.1% (n=7), respectively. The relative recoveries of well, tap and river water samples which have been spiked with different levels of CPs are 91.6-104.7, 80.8-117.9 and 83.3-101.3%, respectively. The obtained results show that simultaneous DLLME and derivatization combined with GC-ECD is a fast simple method for the determination of CPs in water samples.     

Determination of fatty acids by high-performance liquid chromatography and fluorescence detection using precolumn derivatization with 9-fluorenylmethyl chloroformate

A new high-performance liquid chromatographic method is described for the determination of fatty acids in seed oils. The method was based on precolumn derivatization with 9-fluorenylmethyl chloroformate as a labeling agent and fluorescence detection. Fatty acids were extracted from the samples and subjected to derivatization with the reagent at 60°C for 10?min. The chromatographic separation of 14 fatty acids (C10–C22) was achieved on a combined loading compression octadecyl sulfate (CLC-ODS) column with a run time of 30?min. Three-step gradient elution of a mobile phase consisted of acetonitrile and water was used, and the signal was monitored at excitation and emission wavelengths of 265 and 315?nm, respectively. The method indicated favorable sensitivity and reproducibility for fatty acids’ derivatives. The detection limits, at a signal-to-noise ratio of 3, were 0.01–0.05?µg/ml and relative standard deviations (RSDs) were less than 0.27%. Excellent linear responses were observed with coefficients of 0.9995. This method was applied to quantify fatty acids in white, brown, and black sesame seeds’ oil.     

Improved method of determination of biologically important C10:0-C22:6 fatty acids as their 2-nitrophenylhydrazides by reversed-phase high-performance liquid chromatography

Fatty acids were separated by reversed-phase high-performance liquid chromatography after derivatization with 2-nitrophenylhydrazine hydrochloride in the presence of 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide hydrochloride. The separation of a mixture of fourteen kinds of biologically important fatty acid hydrazides (C10:0-C22:6) was achieved within 15 min. Using margaric acid (C17:0) as internal standard, each fatty acid could be quantitated over the range of 2.5-5000 pmol per injection. Analytical recoveries ranged from 98.1 to 102.6%. The intra- and inter-assay coefficients of variation were less than 2.5 and 3.2%, respectively. For the determination of esterified fatty acids in fats and oils, the saponified mixture was directly derivatized without extraction. This method was compared gave similar fatty acid profiles to those obtained with the conventional liquid-liquid extraction method. It is simple, rapid and accurate for routine analyses of esterified fatty acids in biological materials.     

A capillary electrophoresis method for free fatty acids screening and acidity determination in biodiesel

The advent of policies that incentivize or require alternative diesel fuels has increased the demand for the development of fast analytical methods aiming for the quality control of these fuels. This study approached an alternative method for the determination of biodiesel acidity employing capillary zone electrophoresis based on free fatty acids screening and quantification. Sample preparation comprised vortex-assisted liquid-liquid extraction of free fatty acids and was a crucial step for analysis. It was studied through a 3² full factorial design considering sample mass and the stirring time. Then, solvent suitability was evaluated univariately. The free fatty acid screening was carried out employing a capillary zone electrophoresis method able to separate C16:0, C18:0, C18:1 n-9, C18:2 n-6, and C18:3 n-3, major fatty acids in a variety of vegetable oils used for biodiesel synthesis. In addition to the straightforward sample preparation protocol, the running time of the developed method was only 12 min. Moreover, ultraviolet absorption indirect detection of analytes was approached to avoid analytes derivatization, considering the lack of chromophore groups in saturated fatty acids. Statistical tests did not evidence any significant differences in the biodiesel acidity determination expressed in percentage of free fatty acids when comparing the proposed capillary zone electrophoresis method and the traditional potentiometric titration approach within the 95% confidence interval, which demonstrates the suitability of this alternative method for the biodiesel quality control in routine.     

Determination of Fatty Acids by High-Performance Liquid Chromatography with Electrochemical Detection Using A Ferrocene Derivatization Reagent

Abstract

New derivatization method using ferrocene reagents has been developed for the determination of fatty acids by high-performance liquid chromatography with electrochemical detection. Condensation of fatty acids with 3-bromoacetyl-1, 1'-dimethyl-ferrocene was effected in the presence of 18-crown-6 and potassium fluoride. The resulting esters showed the satisfactory sensitivity at +0.60 V vs. an Ag/AgCl reference electrode with a detection limit of 0.5 pmole. Also the high selectivity was obtained by using a twin electrode electrochemical detector. The proposed derivatization method was found applicable to the determination of fatty acids in human serum.     

血清中游离脂肪酸的液相色谱荧光测定及质谱鉴定

利用新型荧光试剂1,2 苯并 3,4 二氢咔唑 9 乙基对甲苯磺酸酯(BDETS)对19种游离脂肪酸(FFAs)进行柱前衍生,在EclipseXDB C8反相色谱柱上,采用梯度洗脱优化分离.90℃下在DMF溶剂中以K2CO3作催化剂,衍生反应30min获得稳定的荧光产物.激发和发射波长分别为λex=333nm,λem=390nm,采用大气压化学电离源(APCI)正离子模式进行柱后在线质谱定性.多数脂肪酸的线性回归系数大于0.9989,检测限为24.80～80.37fmol.实现了人体血清中长链脂肪酸的定性及相应含量测定.     

荧光衍生试剂1-［2-(对甲苯磺酸酯)乙基］-2-苯基咪唑［4,5-f］9,10-菲的合成及其在长链脂肪酸分析中的应用

合成了新的荧光衍生试剂1-［2-(对甲苯磺酸酯)乙基］-2-苯基咪唑［4,5-f］9,10-菲(TSEPIP),并将其作为柱前衍生化试剂,在Eclipse XDB-C8色谱柱上采用梯度洗脱实现了11种长链(C20~C30)游离脂肪酸(FFA)衍生物的基线分离。利用柱后在线的串联质谱并以大气压化学电离源（APCI）的正离子模式实现了各组分的质谱定性。对土壤及3种苔藓(东亚毛灰藓、锦丝藓、羽平藓)中FFA组分的定量结果表明,苔藓植物从土壤中富集了大量的长链游离脂肪酸。荧光检测的激发波长和发射波长分别为260 nm和380 nm。线性回归系数大于0.9996,检测限为26.19~76.67 fmol。所建立的方法具有良好的重现性,对实际样品的测定结果令人满意。     

High performance liquid chromatographic determination of 3 alpha, 5 beta-tetrahydroaldosterone and cortisol in human urine with fluorescence detection.

A simple and sensitive method for the simultaneous determination of 3 alpha, 5 beta-tetrahydroaldosterone (THALD) and cortisol in human urine is described. The method uses high performance liquid chromatography with fluorescence detection. THALD and cortisol, released by enzyme hydrolysis, and fludrocortisone (internal standard) are isolated by a Sephadex G-25M column and a Bond-Elut C18 cartridge, and then oxidized by cupric acetate to form the corresponding glyoxal derivatives. The glyoxal derivatives are converted into the fluorescent quinoxalines by reaction with 1,2-diamino-4,5-methylenedioxybenzene. The quinoxalines are successfully separated on a reversed phase column (L-column ODS) with isocratic elution and monitored fluorimetrically. The detection limits for THALD and cortisol are 0.45 and 1.18 ng/mL urine (0.65 and 2.65 pmol/100 microL injection volume), respectively, at a signal-to-noise ratio of 3 in a 100 microL injection volume. This method permits the precise and sensitive determination of THALD and cortisol in human urine (2 mL).     

Fast,sensitive and highly discriminant gas chromatography–mass spectrometry method for profiling analysis of fatty acids in serum

A method for the determination of fatty acids in serum based on GC–MS (micro-SIS detection mode) has been developed and the separation and cis/trans isomers have been identified. A prior two-step extraction/derivatization procedure accelerated by ultrasound allows individual determination of esterified (EFAs) and non-esterified fatty acids (NEFAs), and shortening of the derivatization steps to 5 min for EFAs and 15 min for NEFAs. The total analysis time for 39 fatty acids was 61 min. The minimum LOD and LOQ values were 0.002 and 0.006 μg/ml, respectively. The proposed method was validated for EFAs and NEFAs using two different methods and the results show no statistical differences between the proposed method and those used as reference. The proposed derivatization–extraction methodology is suitable for fatty-acid analysis of human serum, and can be applied to nutritional and epidemiological studies.     

Direct, sensitive and selective detection of free fatty acids by high-performance liquid chromatography with post-column ion-pair extraction and absorbance detection

Free fatty acids (C8-C18) are separated by reversed-phase liquid chromatography and detected using a simple post-column dynamic extraction system in which the acids are extracted as ion pairs with chloroform from the aqueous acetonitrile (gradient: 79-99% acetonitrile) mobile phase after the post-column addition of aqueous Methylene Blue solution. The chloroform phase containing the ion pairs is monitored with an absorbance detector at 651 nm. The detection limits ranged from 26 to 83 ng, depending upon the acid, with coefficients of variation of 1.2-14%. Application of the method to butter and margarine samples permitted detection of free fatty acids down to 35 ppm and in orange juice, down to 0.5 ppm using only an organic solvent extraction without further sample clean-up for isolation of the fatty acids.     

Determination of urinary free cortisol by high performance liquid chromatography with sulphuric acid-ethanol derivatization and column switching.

A rapid and highly sensitive determination method for urinary free cortisol has been developed using reversed phase high performance liquid chromatography (HPLC) with a precolumn for sulphuric acid-ethanol fluorescence derivatization and column switching. Urinary cortisol, eluted from the octadecylsilane-bonded silica (ODS) minicolumn with 90% aqueous ethanol, was derivatized with the addition of sulphuric acid only at ambient temperature. Cortisol derivatives injected directly onto the ODS precolumn were purified on-line. After switching the columns, the cortisol derivative was separated on an ODS analytical column with a retention time of 15.3 min and monitored at an emission wavelength of 520 nm (exitation wavelength of 365 nm) to decrease the detection limit to 0.26 microgram/dL (signal-to-noise ratio = 3). The automated HPLC operation resulted in good reproducibility and recovery of the stable cortisol derivative at 5 degrees C.