Separation of ketoconazole enantiomers by chiral subcritical-fluid chromatography

The separation of ketoconazole enantiomers by subcritical-fluid chromatography using an amylose-based column is described. Drastic changes in the resolution have been obtained for the different organic modifiers evaluated, with ethanol providing the best results. Other chromatographic parameters such as temperature, pressure and flow-rate have also been studied. The best results in terms of resolution and analysis time were obtained using 30% ethanol (containing 0.1% triethylamine and 0.1% trifluoroacetic acid), a pressure of 300 bar, a temperature of 35 degrees C and a flow-rate of 3 ml/min. Under these conditions the ketoconazole enantiomers are resolved in a short time (less than 7 min) and with high resolution (4.29).     

Optimized separation of beta-blockers with multiple chiral centers using capillary electrochromatography-mass spectrometry

This work focuses on the simultaneous analysis of beta-blockers with multiple stereogenic centers using capillary electrochromatography-mass spectrometry (CEC-MS) with a vancomycin stationary phase. The critical mobile phase variables (composition of organic solvents, acid/base ratios) as well as column temperature and electric field strength, effecting enantioresolution and analysis time were first optimized sequentially. Next, to achieve global optimum a multivariate D-optimal design was used. Although multivariate approach did not improve enantioresolution any further, analysis time was significantly reduced. Under optimum CEC-MS conditions, all stereoisomers were resolved with resolution in the range 1.0-3.1 in less than 60 min with an average signal-to-noise (S/N) greater than 1000. The developed CEC-MS method has the potential to emerge as a screening method for analysis of multiple chiral compounds using a single protocol using the same column and mobile phase conditions, thus reducing the operation time and cost.     

Ibuprofen reduces the progression of permeability edema in an animal model of hyperdynamic sepsis

Since severity of acute lung injury (ALI) is reduced by pretreatment with non-steroidal agents, we hypothesized that ibuprofen would ameliorate ALI when administered after the onset of septic lung injury. Twenty-four hours after cecal ligation and perforation (CLP) in 23 sheep during a 4 h study period (period S), pulmonary lymph flow (QL) increased 16.2 +/- 12.1 ml/min (P less than 0.01) from base line, whereas lymph-to-plasma total protein concentration ratios ([L/P]TP) remained unchanged. During the subsequent 24 h of study (period D), 10 sheep received parenteral ibuprofen, 12.5 mg/kg every 6 h, and 13 sheep served as untreated septic controls. Throughout period D, a progressive increase in QL (16.2 +/- 16.3 ml/60 min) from period S was greater in the untreated than in the ibuprofen (2.5 +/- 9.0 ml/60 min, P less than 0.02) group. Between base line and period D, increase in lung wet-to-dry weight ratios was greater in the untreated group than in the ibuprofen group (P less than 0.05). Concurrently mean pulmonary arterial pressure increased 4.7 +/- 7.3 mmHg in the untreated group (P less than 0.05) during period D vs. 0.0 +/- 5.2 mmHg in the ibuprofen group (NS). When administered after septic ALI had been established by CLP, ibuprofen reduced an otherwise progressive increase in both fluid flux and extravascular lung water.     

Resolution of the enantiomers of ibuprofen; comparison study of diastereomeric method and chiral stationary phase method

In this study, an indirect diastereomeric method and a direct method utilizing a chiral stationary phase (CSP) were investigated for the resolution of ibuprofen enantiomers. In the indirect method, ethylchloroformate (ECF) and 2-ethoxy-1-1-ethoxycarbonyl-1,2-dihydroquinoline (EEDQ) were utilized as first-step derivatizing reagents in acetonitrile or toluene. In the direct CSP method, ibuprofen enantiomers were derivatized to p-nitrobenzyl ureides and then resolved on an (R)-(−)-(1-naphthyl)ethylurea CSP column. The derivatization procedure took place in 10 min with an overall inversion efficiency of 90.3%. Racemization was not observed under the derivatization conditions used. The HPLC-CSP method was utilized to study the pharmacokinetics of ibuprofen enantiomers in dog plasma after a single oral administration of 200 mg of ibuprofen racemate.     

Optimal packing characteristics of rolled, continuous stationary-phase columns

Rolled, continuous stationary phases were constructed by tightly rolling and inserting a whole textile fabric into a chromatography column. This work reports the column performance, in terms of plate height, void fraction, and resolution, of 10 cellulose-based fabrics. The relation between fabric structural properties of yarn diameter, fabric count, fabric compressibility, and column performance are quantitated. General requirements, including reproducibility of packing, for choosing fabrics to make a good SEC column are identified. This research showed that the packed columns have an optimal mass of fabric that minimizes plate height and maximizes resolution, in a manner that is consistent with chromatography theory. Mass of material packed is then an important column parameter to consider when optimizing columns for the rapid desalting of proteins. Proteins were completely separated from salt and glucose in less than 8 min at a pressure drop less than 500 psi on the rolled, continuous stationary-phase columns. These results, together with stability and reproducibility, suggest potential industrial applications for cellulose-based rolled, continuous stationary-phase columns where speed is a key parameter in the production process.     

Separation of estrogen conjugates by high pressure liquid chromatography.

High pressure liquid chromatography using a prepacked commercial strong anion exchanger column (mu Partisil 10 SAX, 25 cm x 4.6 mm) was used to separate a mixture of eight estrogen conjugates. Chromatographic conditions using a 0.01 M potassium phosphate or 0.1 M NaCl as solvent in the isocratic mode are described for the separation of estrone glucosiduronate, 17beta-estradiol-3-glucosiduronate, 17beta-estradiol-17-glucosiduronate, estriol-3-glucosiduronate, estriol-16alpha-glucosiduronate, estriol-17-glucosiduronate, estrone sulfate and 17beta-estradiol-3-sulfate. This system gives high resolution of the estrogen conjugates in small eluent volumes in less than 30 min. The advantages of this high pressure liquid chromatographic system over other methods of separation are discussed.     

Enantioseparation of napropamide by supercritical fluid chromatography: Effects of the chromatographic conditions and separation mechanism

Supercritical fluid chromatography (SFC) is already used for enantioseparation in the pharmaceutical industry, but it is rarely used for the separation of chiral pesticides. Comparing with high performence liquid chromatography, SFC uses much more environmnetal friendly and economic mobile phase, supercritical CO₂. In our work, the enantioseparation of an amide herbicide, napropamide, using three different polysaccharide‐type chiral stationary phases (CSPs) in SFC was investigated. By studying the effect of different CSPs, organic modifiers, temperature, back‐pressure regulator pressures, and flow rates for the enantioseparation of napropamide, we established a rapid and green method for enantioseparation that takes less than 2 minutes: The column was CEL2, the mobile phase was CO₂ with 20% 2‐propanol, and the flow rate was 2.0 mL/min. We found that CEL2 demonstrated the strongest resolution capability. Acetonitrile was favored over alcoholic solvents when the CSP was amylose and 2‐propanol was the best choice when using cellulose. When the concentration of the modifiers or the flow rate was decreased, resolutions and analysis times increased concurrently. The temperature and back‐pressure regulator pressure exhibited only minor influences on the resolution and analysis time of the napropamide enantioseparations with these chiral columns. The molecular docking analysis provided a deeper insight into the interactions between the enantiomers and the CSPs at the atomic level and partly explained the reason for the different elution orders using the different chiral columns.     

Advances in the analysis of amino acid phenylthiohydantoins by high performance liquid chromatography

All the organic soluble amino acid phenylthiohydantoins are eluted (but not totally resolved) in under 40 min on either a Zorbax ODS or Permaphase ETH column. The superior resolution of the Zorbax ODS column and the complimentary characteristic of the Permaphase ETH column allow the isocratic analysis of 15 phenylthiohydantoins in less than 20 min when the columns are operated simultaneously. The water soluble PTH-His and -Arg are analyzed separately in under 10 min with the Zorbax ODS column. Five picomoles of a derivative may be detected with a sample to noise ratio of 6, HPLC is the most sensitive, practical method for PTH analysis.     

A 3D Homochiral MOF [Cd2(d‐cam)3]•2Hdma•4dma for HPLC Chromatographic Enantioseparation

Up to now, some chiral metal‐organic frameworks (MOFs) have been reported for enantioseparation in liquid chromatography. Here we report a homochiral MOF, [Cd2(d‐cam)3]·2Hdma·4dma, used as a new chiral stationary phase for high‐performance liquid chromatographic enantioseparation. Nine racemates of alcohol, naphthol, ketone, and base compounds were used as analytes for evaluating the separation properties of the chiral MOF packed column. Moreover, some effects such as mobile phase composition, column temperature, and analytes mass for separations on this chiral column also were investigated. The relative standard deviations for the resolution values of run‐to‐run and column‐to‐column were less than 2.1% and 3.2%, respectively. The experimental results indicate that the homochiral MOF offered good recognition ability, which promotes the application of chiral MOFs use as stationary phase for enantioseparation. Chirality 28:340–346, 2016. © 2016 Wiley Periodicals, Inc.     

Ibuprofen attenuates plasma tumor necrosis factor activity during sepsis-induced acute lung injury.

Plasma tumor necrosis factor (TNF) activity, cardiac index, extravascular lung water, systemic and pulmonary arterial pressures, pulmonary vascular resistance index, and arterial PO2 were monitored for 300 min in four groups of anesthetized pigs: saline-infused animals (n = 5), saline-infused animals given ibuprofen (12.5 mg/kg iv) at 0 and 120 min (n = 4), animals infused for 60 min with live Pseudomonas aeruginosa (Ps, 5 x 10(8) organisms/ml at 0.3 ml.20 kg-1.min-1, n = 6), and animals infused for 60 min with Ps plus ibuprofen administered at 0 and 120 min (n = 4). Infusion of Ps induced significant elevations (greater than 4-fold increase in units/ml of TNF by 60 min, P less than 0.05) in plasma TNF activity (L929 cytolysis assay) and alterations (P less than 0.05) in all hemodynamic and pulmonary parameters within 30-60 min. Ibuprofen administration in sepsis significantly decreased peak TNF activity by 2 units/ml and attenuated many of the physiological alterations due to sepsis. These results show that ibuprofen attenuates sepsis-induced injury and that alterations of acute septic insult are correlated with reduced plasma TNF activity in septic animals given ibuprofen.     

Resolution and determination of enantiomeric purity of the enantiomers of felodipine using chiral-AGP® as stationary phase

A direct chiral chromatographic reversed phase method for the determination of the enantiomers of felodipine is described. The influence of charged and uncharged modifiers as well as the effect of the mobile phase pH on the enantiomeric resolution is discussed. A high mobile phase pH and the addition of 2-propanol as organic modifier gave the highest separation factor (α = 1.3). The high mobile phase pH (pH = 7.6) is outside the recommended pH limit of silica based columns but was necessary to achieve baseline resolution of (R)- and (S)-felodipine. Improvement of column efficiency by increasing column temperature was utilized for optimization of the enantiomeric resolution (Rs = 1.7). The enantiomers of felodipine and three related compounds were separated within 15 min. The enantiomeric purity of (R)- and (S)-felodipine in injections and (R)-felodipine in bulk substance was higher than 99.5% and no racemization was observed after storage at accelerated conditions. A poor Chiral-AGP® column used for a long period was restored using a simple wash step together with repacking the top of the chromatographic column. © 1995 Wiley-Liss, Inc.     

Separation of tocopherol and tocotrienol isomers using normal- and reverse-phase liquid chromatography

This optimization study for tocopherols and tocotrienols involved both normal- and reverse-phase liquid chromatography using various columns and mobile phases. Normal-phase systems showed elution of the homologs in order of increasing polarity with separation based on methyl substituents on the chromanol moiety. Reverse-phase systems showed class separation based on the saturation of the phytyl side chain; the more saturated tocopherols were retained on the column longer. When the Zorbax ODS was used with an isocratic ternary acetonitrile:methanol:methylene chloride (60:35:5) mixture, the optimized resolution was greater than 2.0 and separation was achieved in less than 13 min, but there was no separation of beta- and gamma-tocopherols. The normal-phase silica and amino columns provided separation of all available isomers with resolution greater than 1.1 and separation times of less than 5.5 and less than 10 min, respectively. Optimized isocratic binary solvent mixtures of hexane:2-propanol were used for silica (99:1) and amino (98:2) columns. Derivative spectra showed differences depending on substituents in the chromanol moiety but not the phytyl side chain. Second- and fourth-derivative spectra gave the best differentiation of the vitamin E isomers.     

Liquid chromatographic retention behavior and enantiomeric separation of three chiral center beta-blocker drug (nadolol) using heptakis (6-azido-6-deoxy-2, 3-di-O-phenylcarbamolyted) beta-cyclodextrin bonded chiral stationary phase

Nadolol, a beta-blocker used in the management of hypertension and angina pectoris, has three chiral centers and is currently marketed as an equal mixture of its four stereoisomers. Enantiomeric separation of nadolol by high-performance liquid chromatography was studied on a column packed with novel heptakis (6-azido-6-deoxy-2, 3-di-O-phenylcarbamolyted) beta-cyclodextrin bonded chiral stationary phase. The retention behavior and resolution of nadolol enantiomers were investigated and discussed with respect to the mobile phase composition and flow rate, pH, ionic strength, and temperature. The optimal separation condition was found; the mobile phase contained 80% buffer solution (1% triethylamine acetate, pH 5.5) and 20% methanol with 0.3 ml/min mobile phase flow rate at a temperature of 20 degrees C. At the optimal conditions, resolution of three stereoisomers of nadolol was obtained with a complete separation of the most active enantiomer, (RSR)-nadolol. Thermodynamic properties including enthalpy and entropy change of binding to the CSP for the enantiomeric separation were also determined.     

Enantioseparation of chiral perfluorooctane sulfonate (PFOS) by supercritical fluid chromatography (SFC): Effects of the chromatographic conditions and separation mechanism

Perfluorooctane sulfonate (PFOS) is one of the most frequently detected perfluoroalkyl substances in environmental and human samples. Previous studies have shown that nonracemic PFOS in biological samples can be used as a marker of PFOS exposure sources. In recent years, supercritical fluid chromatography (SFC) has emerged as a powerful method to separate chiral compounds. In this study, a method of perfluoro‐1‐methylheptane sulfonate (1 m‐PFOS) enantioseparation by SFC was established. The optimal separation was obtained using a Chiralpak QN‐AX column with CO₂/2‐propanol (70/30, v/v) as the mobile phase with a flow rate of 1 mL/min, column temperature was 32°C, and BPR pressure was 1800 psi. The resolution (Rs) and retention time were 0.88 and 130 minutes, respectively. This method is more economic and greener than HPLC. Modifier pH and column temperature were determined to be significant factors of SFC chiral separation. Modifier pH is negatively correlated with the retention factors and Rs. Adsorption thermodynamics were used to explain the influence of temperature change, and it was concluded that the transfer of two enantiomers from the mobile phase to the stationary phase is enthalpy‐driven. Enantioseparation of 1 m‐PFOS by SFC follows the same rules of ion exchange as those for the chiral separation by HPLC.     

Chromatography of hen egg-white proteins on anion-exchange cellulose at high flow rates using a radial flow column.

The influence of column configuration on the separation of hen egg-white proteins using Whatman DE52 and QA52 anion-exchange cellulose has been investigated. Using a 100 ml volume axial flow column (6.6 cm x 4.4 cm i.d.) we achieved flow rates of up to 25 ml/min i.e. 15 bed volumes/h after which higher flow was restricted due to pressure constraints within the system. Under radial flow conditions using a 100 ml column flow rates of up to 150 ml/min i.e. 90 bed volumes/h were achieved using DE52 and QA52. While chromatographic resolution was superior under axial flow at the lower flow rates excellent resolution was maintained at up to 150 ml/min using the radial flow column. This is a consequence of the fast kinetics of adsorption/desorption exhibited by DE52 and QA52. The data indicate that it is the column configuration and not the cellulose matrix which influences flow performance.     

Chiral stationary phases in HPLC for the stereoselective determination of methadone

An extensive study of the behavior of three chiral stationary phases (CSP) used in liquid chromatography (LC) is presented for the stereoselective determination of methadone. The following chromatographic columns were selected: a cellulose, Chiralcel OJ; a modified cyclodextrin, Cyclobond I 2000 RSP, and a protein, Chiral‐AGP. Retention factors, enantioselectivity, efficiency, and resolution were tested by modifying the composition of the mobile phase as well as the temperature. The mechanism for the chiral recognition of methadone on each support was discussed. Optimal chromatographic parameters were obtained for the three supports tested, and methadone enantiomers were separated in less than 20 minutes. The cellulose‐based column gave the best resolution, but this CSP was not adapted to clinical analyses of methadone. Under optimized conditions, the cyclodextrin‐ and protein‐based columns allowed an excellent separation of methadone enantiomers, but no interference with the primary metabolite was found only with Chiral‐AGP. Chirality 11:319–325, 1999. © 1999 Wiley‐Liss, Inc.     

Fast liquid chromatography for racemic atenolol acetate separation—The analytical protocol

Kinetic resolution of (R ,S )‐atenolol is a faster strategy to produce (S )‐atenolol. Since this racemate is a less soluble compound, resolution of its ester offers high concentrations in the process. A good analytical method is required to observe the enantiomer concentrations. This paper described application of ultra‐fast liquid chromatography on the atenolol ester separation using different resolution media and analytical procedures. Chiralcel OD column resolved the ester. The chromatograms indicated different characteristics of the process. The enantiomers could be recognized by the column in less than 1 (one) hour. Symmetrical peaks were obtained, but several procedures produced peaks with wide bases and slanted baselines. Efficient enantioresolution was obtained at high mobile phase flow rate, decreased concentration of amine‐type modifier, but increased alcohol content in the mobile phase. High UV detection wavelength was required. At 1.0 mL/min, the (90/10/0.5) composition resulted α  = 1.46 and R _S  = 0.9998 that were good separation.     

Rapid and simple method for the determination of urinary benzoic and phenylacetic acids and their glycine conjugates in ruminants by reversed-phase high-performance liquid chromatography

A simple, rapid and reproducible reversed-phase high-performance liquid chromatographic method for the simultaneous determination of benzoic acid (BA), phenylacetic acid (PAA) and their respective glycine conjugates hippuric acid (HA) and phenaceturic acid (PA) in sheep urine is described. The procedure involves only direct injection of a diluted urine sample, thus obviating the need for an extraction step or an internal standard. The compounds were separated on a Nova-Pak C₁₈ column with isocratic elution with acetate buffer (25 mM, pH 4.5)—methanol (95:5). A flow-rate of 1.0 ml/min, a column temperature of 35°C and detection at 230 nm were employed. These conditions were optimized by investigating the effects of pH, molarity, methanol concentration in the mobile phase and column temperature on the resolution of the metabolites. The total analysis time was less than 15 min per sample. At a signal-to-noise ratio of 3 the detection limits for ten-fold diluted urine were 1.0 μg/ml for BA and HA and 5.0 μg/ml for PAA and PA with a 20-μl injection.     

Preparative countercurrent chromatography with a slowly rotating helical tube

The method uses a coiled column which slowly rotates about its axis under a gravitational field. When the column filled with the stationary phase is eluted with the mobile phase in the proper direction, nearly half of the stationary phase is retained although constantly mixed with the mobile phase. Consequently, those solutes introduced are subjected to an efficient partition process and are separated according to their relative partition coefficients. Optimum operational conditions are investigated with respect to column angle, rotational speed, and flow rate for the separation of peptides using a low interfacial tension n-BuOH phase system. The horizontal column position produces a segmental flow pattern of the aqueous phase, resulting in the highest resolution, whereas the rotation sharply increases the effciency from 0 to 10 rpm. Although the highest resolution is obtained by a slow flow rate, the time required for yielding one theoretical plate is minimized by a faster flow to less than 1 min per theoretical plate.     

Liquid chromatography method for the analysis of adenosine compounds

A newly available chromatography column packing material that employs hybrid particle technology was used to improve the analysis of adenosine compounds. Using a TBAS buffer/acetonitrile gradient this material permits separation of etheno-adenosine compounds in less than 4 min with excellent resolution and sensitivity (50 fmol). Variability of compound quantification is small (coefficients of variation 0.23+/-0.14% for 50 pmol and 1.70+/-0.53% for 0.5 pmol). The new method is well suited for the analysis of adenosine compounds in small biological samples and permits a high sample throughput in autosampler setups with high precision and reproducibility.