Javier Domínguez-Álvarez

Cloud point extraction as a preconcentration step prior to capillary electrophoresis.

Cloud point extraction was applied as a preconcentration step prior to capillary electrophoresis. The behavior of a surfactant-rich micellar phase injected into a capillary electrophoresis system was studied using different separation modes:  micellar electrokinetic capillary chromatography and capillary zone electrophoresis (CZE). A problem that appeared on introducing a surfactant-rich phase into a bare fused silica capillary was that the surfactant was adsorbed onto the wall of the capillary, leading to a marked loss of efficiency and reproducibility both in the migration times and in the areas of the electrophoretic peaks. The use of cetyltrimethylammonium bromide dynamically coated capillaries afforded reproducible results, although the half-life of the capillary was short. The most satisfactory results were obtained by using nonaqueous media in the CZE mode, thus avoiding surfactant adsorption. Other parameters related to the composition of the injection medium were also studied to optimize the electrophoretic behavior of the analytes and the sensitivity of the determination. The optimized procedure was applied to the determination of triazines in tap and river water samples.

Determination of triazine herbicides in natural waters by solid-phase extraction and non-aqueous capillary zone electrophoresis.

Capillary zone electrophoresis (CZE) in an organic medium was used to analyse triazines at sub-ppb concentration levels in natural waters after a preconcentration step using conventional C18 cartridges and new Oasis HLB devices. With both sorbents, satisfactory results were obtained on analysing deionized water. However, on analysing natural waters, both sorbents showed very different types of behaviour. The different variables affecting the elution of both sorbents were studied, resulting in the choice of Oasis HLB as the most suitable for later separation by CZE in non-aqueous medium. Combination of a preconcentration step with electrokinetic injection revealed that capillary electrophoresis with simple UV detection can also be used satisfactorily for the quantification of micropollutants in natural waters. The detection limits obtained varied between 0.01 and 0.05 microg l(-1), depending on the type of matrix analysed. The day-to-day precision varied between 0.9% and 2.3%, expressed as the relative standard deviation.

Capillary electrophoresis coupled to mass spectrometry for the determination of anthelmintic benzimidazoles in eggs using a QuEChERS with preconcentration as sample treatment

Benzimidazoles (BZDs) are anthelmintic agents widely used in veterinary medicine. Their use in food-producing animals increases the possibility of residues appearing in animal tissues and products. Most analytical procedures reported for the determination of BZDs have been developed based on liquid chromatography (LC) because of their polar nature - zwitterionic - and thermal lability. To our knowledge, the determination of these compounds by capillary electrophoresis coupled to mass spectrometry (CE-MS) has not yet been described. In this work CE-MS is proposed for the identification and simultaneous quantification of several benzimidazoles in egg samples. The target compounds were 2-aminobenzimidazole, carbendazim, albendazole-2-aminosulphone, 5-hydroxy-thiabendazole, oxibendazole, albendazole, fenbendazole, oxfendazole, albendazole-sulphone, fenbendazole-sulphone. Optimization of the composition and nature - organic/aqueous - of both the electrophoretic separation buffer and the injection medium was carried out with a view to obtaining the best sensitivity and separation efficiency for the CE-MS coupling. A comparative study was carried out on different sample treatments for analyte extraction from egg samples. Two of them comprised a solvent extraction step followed by clean-up using a new commercial polymeric sorbent (Evolute ABN(©)), and the third was a particularization of the general extractive method so called Quick, Easy, Cheap, Effective, Rugged and Safe (QuEChERS). Different modifications of the QuEChERS method were assayed, which included a later preconcentration step based on either SPE with MCX(©) sorbents or evaporation. The whole optimized method (QuEChERS with preconcentration prior to CE-MS) was validated according to the 2002/657/EC decision obtaining a CE-MS method sufficiently reliable and robust to determine residues of these compounds in egg samples of different origins with limits of detection between 3 and 51 μgL(-1) (S/N=3) and recoveries in the 74-112% range.

Capillary zone electrophoresis in nonaqueous solvents in the presence of ionic additives.

Capillary zone electrophoresis (CZE) in nonaqueous media and in the presence of ionic additives has been successfully applied to the determination of compounds that differ only slightly in their electrophoretic mobilities. Triazine herbicides of environmental interest were chosen as test compounds because they behave as very weak bases. CZE separation of these analytes (especially chlorotriazines) in aqueous solution is difficult due to the low pH required for their conversion into protonated cationic form (HA(+)). However, in mixed nonaqueous solvents, 50% (v/v) acetonitrile-methanol, the acid-base characteristics of these compounds are modified, yielding the protonated ionic species that is susceptible to migration when subjected to an electric field. A noteworthy increase in separation selectivity and resolution can be achieved by using ionic additives. Thus, in this mode of capillary zone electrophoresis, separation is based on ionic interactions between the charged analytes and the ionic additive present in the separation medium. These interactions contribute to enhancing mobility differences and to improving analyte separation. For the separation of chloro- and methylthiotriazines, 10 mM perchloric acid in 50% (v/v) acetonitrile-methanol and 20 mM SDS proved to be satisfactory, providing high resolution in short analysis times. The selectivity achieved was found to depend on the degree of association of the analyte with the ionic additive in the nonaqueous medium. This permits manipulation of the selectivity of the electrophoretic separations as a function of the type and concentration of the ionic additive and of the nature of the nonaqueous medium employed.

Solid-phase extraction and sample stacking-micellar electrokinetic capillary chromatography for the determination of multiresidues of herbicides and metabolites.

Micellar electrokinetic capillary chromatography (MEKC) with diode array detection was used for the separation of 13 compounds (eight herbicides widely used in agriculture: metribuzin, lenacil, ethofumesate, atrazine, terbutryn, isoproturon, chlorotoluron and linuron, and five of their principal degradation products; namely, deethylatrazine, 2-hydroxyatrazine, deethyl-2-hydroxyatrazine, deisopropylatrazine and 3-chloro-4-methylphenylurea). Peak separation for the 13 analytes was not successful when a single surfactant system was employed, neither sodium dodecyl sulfate (SDS) nor dioctyl sulfosuccinate (DOSS) sodium salt. However, a mixture of these herbicides was successfully separated using a mixed micellar system involving SDS-DOSS in less than 14 min. An application study of an on-line concentration technique for MEKC was carried out to enhance sensitivity. The optimized on-line stacking procedure consisted simply of the addition of 50 mM of sodium chloride to the injection sample, the stacking effect being more intensive as analyte polarity increased. When this stacking procedure was combined with an off-line sample preconcentration step, based on solid-phase extraction, analytes could be detected in the ppb range. The whole method was applied to ultra-high-quality and natural waters. Linear relationships between the analytical signal and the initial analyte concentration were found to be independent of the type of water, except for the more polar analytes for which small differences were observed.

Prediction of the behaviour of organic pollutants using cloudpoint extraction

A preconcentration study based on the cloud point phenomenon was carried out for a set of triazine herbicides, three of them chloro-substituted and three of them methylthio-substituted. Concentration factors and recoveries were calculated as function of the percentage of the non-ionic surfactant Triton X-114 employed. From these values, obtained from a cloud point extraction (CPE) procedure, the distribution coefficient between the Triton X-114 micelles and water, Kc, prior to CPE was calculated for each triazine and related to the corresponding octanol-water partition coefficient, Kow. In order to confirm the results obtained with the triazine herbicides, two sets of data from chemically different organic pollutants--organophosporous and chlorophenols--obtained from the literature were assessed, concluding that they display a similar behaviour to that of the triazine herbicides. This can be used to predict the CPE behaviour of other organic pollutants from their octanol-water partition coefficients. The Kc values were compared with the analyte concentration ratio in the surfactant-rich phase and aqueous phase (Ksa) with a view to obtaining a link between the analyte behaviour prior to and after cloud point extraction procedures.

Analysis of isoflavones in soy drink by capillary zone electrophoresis coupled with electrospray ionization mass spectrometry

Capillary zone electrophoresis coupled with electrospray ionization mass spectrometry (CZE-ESI-MS) has been applied for the first time for the separation and quantification of isoflavones in soy products. The proposed method was successfully applied to the determination of seven isoflavones, including aglycones and glucosides, in soy drink. The target compounds were the glucosides daidzin and genistin, and the aglycones daidzein, genistein, formononetin, biochanin A and glycitein. During CE separation in positive mode, the analytes were present as anions, and MS detection was carried out in ESI positive-ion mode. To prevent the frequent drops in current and to improve the resolution in the separation of analytes in anionic form, a programmed nebulizing gas pressure (PNP) was applied along the analysis. Extraction of isoflavones from soy drinks was carried out by liquid-liquid extraction using ethanol. The proposed extraction procedure is simple, efficient, and affords reproducible results. Quantification of the isoflavones in soy drinks using the external standard method did not produce good results; therefore, both internal standard and standard addition quantification methods were used, obtaining significantly similar results. The detection limits found were lower than 3.2 μg L(-1).

In-capillary preconcentration of pirimicarb and carbendazim with a monolithic polymeric sorbent prior to separation by CZE

CZE was assayed for the separation of carbamate pesticides susceptible to protonation (Pirimicarb, Carbendazim). Different electrophoretic media with high organic contents were explored, adequate separation and resolution being achieved when a BGE based on ACN with acetic acid in the presence of SDS as an ionic additive was used. With a view to increasing the sensitivity of the method, an in‐capillary SPE step prior to the electrophoretic separation was developed. We employed a monolithic polymer formed in situ within the capillary as a medium for analyte retention. The synthesized monolithic bed exhibited high porosity and allowed samples to be loaded at flow rates of about 65 μL/min by applying a pressure of 12 bar. A 5‐cm length of monolithic sorbent was used to preconcentrate the target analytes from aqueous samples. The analytes retained were eluted from the polymeric phase directly in the separation capillary with the same electrophoretic medium used for their further separation by CZE. For a 15‐min preconcentration time, the in‐line SPE–CZE approach proposed here permitted the determination of these pesticides in drinking water at a concentration level of 0.1 μg/L, as demanded by current EU legislation.

Ultrasonic solvent extraction and nonaqueous CE for the determination of herbicide residues in potatoes

In the present work we address the development of a simple and effective method for the determination of triazine herbicide residues in horticultural products by CE in nonaqueous media (NACE). Potato samples were selected as a representative matrix of such foods with a nonfatty content. Isolation of the analytes from the sample matrix was accomplished by extraction with organic solvents, assisted by ultrasound; a clean-up step of the organic extracts was carried out with SPE, using an Oasis MCX(R) sorbent to retain the analytes directly from the organic medium. The detection limits achieved in spiked potatoes (1.7-4.0 mug/kg) were lower than the default value of maximum residue level (MRL) established by current EU legislation for pesticide residues in foodstuffs. The results obtained were compared with HPLC in order to evaluate the performance of the NACE procedure.

Analysis of free nucleotide monophosphates in human milk and effect of pasteurisation or high-pressure processing on their contents by capillary electrophoresis coupled to mass spectrometry

A simple, efficient and green analytical method for the determination of free nucleotide monophosphates in human milk is proposed. It involves centrifugal ultrafiltration (CUF) as sample treatment and capillary electrophoresis-electrospray mass spectrometry (CE-ESI-MS) for separation and simultaneous quantification. The optimised method, applied to the analysis of human milk samples, included their dilution (1:5) with water followed by CUF treatment. No matrix effects were found. The method provided limits of detection between 0.08 and 0.13 μg mL(-1) and limits of quantification between 0.26 and 0.43 μg mL(-1). The intralaboratory repeatability and reproducibility afforded relative standard deviation values lower than 10%. The method was applied to the study of the effects of Holder pasteurisation and high-pressure processing on the nucleotide contents in samples from a human milk bank. The results showed concentration values between 0.5 and 10 μg mL(-1), with higher concentrations for the samples treated by pasteurisation. The effect of freezing time on the content of nucleotides was also assessed.