Influence of mobile phase composition on the adsorption of hen egg-white proteins to anion-exchange cellulose

Summary Factors influencing the capacity of Whatman QA52 anion-exchange cellulose for hen egg-white proteins have been investigated. While simply increasing the concentration of protein in the feedstock increases the loading there is a concomitant reduction in binding efficiency in a single pass through the column. Substitution of buffer by water in the mobile phase during sample preparation, thereby reducing the ionic strength of the feedstock, had the effect of significantly increasing protein capacity whilst improving binding efficiency. During column loading large changes in pH of the mobile phase were observed although this had no apparent effect on the chromatography for this system.     

Application of HPLC mobile phase optimization methods to the detection of impurities in bulk drug steroids

Summary Some mobile phase optimization methods have been used in developing a Reversed-Phase High-Performance Liquid Chromatography methodology for the determination of related impurities in bulk pharmaceutical steroids. Using two different approaches with binary and ternary mobile phase, the complete separation of 9--fluoroprednisolone acetate and its main potential impurities, at low concentration levels, has been achieved. This methodology may be applicable to other steroidal drugs and it is presented as an alternative to the thin-layer chromatography currently prescribed in official methods.     

The role of the mobile phase in the resolution of racemic esters of aminoacids by normal phase high-performance liquid chromatography

Summary The work in this paper demonstrates the effect of the mobile phase composition on interactions involving racemic esters of aminoacids and a chiral stationary phase derived from N-formylisoleucine. Aprotic solvents have been employed to test the resolution of these racemates. An increase in the alcohol concentration of the mobile phase results in the deterioration of selectivity. These solvents seem to favour high separation factors. The solvent 1,1,2-trichlorotri fluoroethane is a suitable mobile phase modifier for normal phase liquid chromatographic resolution of enantiomers of aminoacid esters.     

A new method for the determination of mobile phase volume in normal and reversed-phase liquid chromatography

Summary A new method for the determination of the mobile phase volume (V _m) in liquid chromatography is presented based on the model regarding the retention of ionic solutes in the presence of eluent electrolytes. TheV _m value can be determined by measuring the retention volumes of two ions that have the same charge in two eluent electrolyte systems. Compared with the methods using isotopically labelled eluent components or inorganic salts asV _m markers, the method presented is proved to give more reasonableV _m values for both normal and reversed-phase liquid chromatography. As well as in binary mixed solvent systems, theV _m values in single solvent systems can be determined by this method.     

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.     

Extraction of quinolones from milk samples using bentonite/magnetite nanoparticles before determination by high‐performance liquid chromatography with fluorimetric detection

In this work, bentonite magnetic nanoparticles synthesized by a typical coprecipitation method were used as the adsorbent for the magnetic solid‐phase extraction of six quinolones (ciprofloxacin, difloxacin, enrofloxacin, norfloxacin, sarafloxacin, and lomefloxacin) from milk samples followed by high‐performance liquid chromatography with fluorimetric detection. Under the optimized conditions, the linear quantitation range for the six quinolones was 0.3–200 ng/mL, and the correlation coefficients of the calibration curves ranged from 0.9994 to 0.9999. The detection limit of the method was 0.1 ng/mL. Recoveries of quinolones from pure and low‐fat spiked milk samples varied from 80.4 to 92.7% and from 81.3 to 93.5%, respectively. These results demonstrated that the proposed method for the determination of six quinolones in milk samples was rapid, reliable, and efficient.     

Optimization by isochronal analysis I. Changes in mobile phase composition and velocity

Summary The theory of isochronal analysis (time normalization) has been extended to reversed-phase liquid chromatography. Of the possible manipulation of experimental parameters, the present paper develops a framework for optimizing the resolution by the simultaneous change of mobile phase velocity and composition. For that purpose the resolution equation was written in terms of these two parameters and under the constraint of constant analysis time. This treatment allows plotting the resolution versus the mobile phase composition and velocity. The surfaces thus obtained show the changes that the analyst must perform in order to optimize the resolution. The treatment deals with three possible α dependencies on the amount of organic modifier: constant, increasing and decreasing. Presented at the 15th International Symposium on Chromatography, Nürnberg, October 1984     

Retention prediction of polycyclic aromatic hydrocarbons in reversed phase liquid chromatography with various mobile phase compositions and column temperatures

Summary The relationship between the logarithmic capacity factor measured in reversed-phase liquid chromatography and the operating conditions including the mobile phase composition and the column temperature is investigated. The strategy described herein can offer the possibility to predict the retention of polycyclic aromatic hydrocarbons without any experiments and standard materials, by utilizing equations describing the relationships between retention, temperature, mobile phase composition and physicochemical properties of the solutes previously stored in the program of the microcomputer-assisted retention prediction system.This concept is one of the most promising techniques for the optimization of the separation conditions in reversed-phase liquid chromatography.     

Convenient estimation of the mobile phase volume for water-rich eluents in reversed-phase liquid chromatography

Summary Oxalodihydroxamic acid is proposed as a UV-detectable substitute for D₂O for the convenient estimation of the mobile phase volume (V_m) of water-rich hydro-organic eluents in reversed-phase liquid chromatography. The retention volume of oxalodihydroxamic acid deviates less than 6% from that of D₂O in 0 to 50% methanol-and acetonitrile-water eluents on C₁, C₈, and C₁₈ reversed-phase supports; it is independent of the amount injected from 10ng to 20μg when monitored at 254nm, although the sensitivity is about four-fold greater at 219 nm. The pH should be maintained between about 2 and 4. The deviation from the D₂O retention volume on supports of typical porosity is attributed, at least in part, to a size-exclusion effect. Simple hydroxamic acids can be used as a homologous series for the estimation of V_m over most of the methanol- and acetonitrile-water concentration ranges by the linearization of retentions of homologous series method. Presented at the 15th International Symposium on Chromatography, Nürnberg, October 1984     

HPLC separation and fluorimetric estimation of chlorophylls and pheophytins in fresh and frozen peas

Summary A HPLC method for the separation and estimation of chlorophylls and pheophytins in fresh and frozen peas was assessed with the aim of following the colour changes of the products during storage under frozen conditions.The method involves the acetone extraction of the pigments, followed by HPLC on RP18 with isocratic elution by acetone: ethanol:water, (70:17:13), detecting and estimating the separated compounds by fluorimetry. The mobile phase composition was selected by monitoring the separation efficiency of several mixtures of solvents by HPLC. The reliability and the accuracy of the method were checked.     

Computer-assisted optimization of selectivity (mobile phase,pH, and ion concentration) in high-perfomance liquid chromatography

A computer-assisted method is presented for optimization of mobile phase composition in reverse-phase and normal-phase HPLC. The method is based on window diagrams, but only three preliminary tests are required. The method is successfully applied to two examples and there is good agreement between predicted and experimental results. Optimal values for ion concentration and pH in ion chromatography from a published optimization method are compared to values calculated using the computer-assisted method presented in this paper. The same results are obtained, but the method presented here is simpler and faster than previously published one.     

Signal enhancement by on-column fluorimetric detection in gradient elution of dansyl amino acids in liquid chromatography

Summary Fluorimetric detection in the presence of a stationary phase has been applied to gradient elution of dansyl amino acids in liquid chromatography. A 1.5 mm ID quartz tube packed with the same materials as the separation column was employed for the flow cell. Conventional-size columns were employed. The peak height of analytes increased with increasing retention owing to focusing and environmental effects of the stationary phase, leading to improvements in sensitivity, which was pronounced for analytes eluting late. The lower the gradient, the larger the improvement in sensitivity achieved. Detection limits were improved by a factor of up to 5.1 by fluorimetric detection using the packed flow cell, compared with those achieved using a common empty flow cell.     

Signal enhancement by on-column fluorimetric detection in gradient elution of dansyl amino acids in liquid chromatography

Summary Fluorimetric detection in the presence of a stationary phase has been applied to gradient elution of dansyl amino acids in liquid chromatography. A 1.5 mm ID quartz tube packed with the same materials as the separation column was employed for the flow cell. Conventional-size columns were employed. The peak height of analytes increased with increasing retention owing to focusing and environmental effects of the stationary phase, leading to improvements in sensitivity, which was pronounced for analytes eluting late. The lower the gradient, the larger the improvement in sensitivity achieved. Detection limits were improved by a factor of up to 5.1 by fluorimetric detection using the packed flow cell, compared with those achieved using a common empty flow cell.     

An expert system for eluent optimisation in liquid chromatography with photodiode array detection

Summary The problem of eluent optimisation in reversed-phase liquid chromatography is a complex diagnostic situation, amenable to an expert system approach. Such a system has been developed in microProlog, which uses a gradient elution experiment to determine the appropriate initial solvent strength for a given separation, followed by response-surface modelling using an iterative lattice method to determine the mobile phase composition for optimum resolution. Spectral information from a diode array detector is used to track the retention position of each component as the mobile phase composition is varied. Peak homogeneity is assessed by a number of independent modules, the output from which is utilised by the expert system to validate the model constructed by the optimisation procedure.     

A highly sensitive method for the determination of adriamycin and adriamycinol in human plasma using HPLC with fluorimetric detection

Summary A simple and very sensitive HPLC method, for the simultaneous determination in human plasma of adriamycin and its metabolite adriamycinol, is described. Plasmas from patients were stored frozen. Thawed samples were extracted by absorption of anthracyclin onto a small C18 column. After evaporation of the eluate and reconstitution of the residue with methanol (100L), 30 to 40L of the mixture were injected into the chromatograph. Separation was obtained using an RP 8 column with a mobile phase of formate buffermethanol-acetonitrile (502327, v/v). A spectrofluorimeter was used as detector. The limit of sensitivity of the assay was 50 pcg/ml of plasma.     

The role of mobile-phase pH in the determination of catecholamine-related compounds by reversed-phase liquid chromatography with amperometric detection

Summary A study was conducted for the optimization of the reversed-phase high performance liquid chromatographic separation of different types (acidic, basic, amphoteric and neutral) of catechol-related compounds by varying the pH. For pH to be used as the optimizing parameter, its effects on retention, peak width and peak shape had to be investigated. Therefore, the pH dependence of the amperometric detector response, as measured by the oxidation peak height or peak area, was taken into account.     

Methylammonium formate as a mobile phase modifier for totally aqueous reversed-phase liquid chromatography

Although alkylammonium ionic liquids (ILs) such as ethylammonium nitrate and ethylammonium formate have been used as mobile phase "solvents" for liquid chromatography (LC), we have shown that the IL methylammonium formate (MAF), in part because of its lower viscosity as compared to other ILs, can be an effective replacement for methanol (MeOH) in reversed-phase LC. Plots of log retention factor versus the fraction of MeOH and MAF in the mobile phase indicate quite comparable solvent strength slope values of 2.50 and 2.05, respectively. Using a polar endcapped C18 column, furazolidone and nitrofurantoin using 20% MAF-80% water could be separated in 22 min but no baseline separation is possible using MeOH as the modifier, even down to 10%. Suppression of silanol peak broadening effects by MAF is important, permitting a baseline separation of pyridoxine, thiamine, and nicotinamide using 5% MAF-95% water at 0.7 mL/min. Using 5% MeOH-95% water, severe peak broadening for thiamine is evident. The compatibility of MAF as a mobile phase modifer at the 5% level for LC with mass spectrometry detection of water-soluble vitamins is also shown.     

Optimizing separations in reversed-phase liquid chromatography by varying pH and solvent composition

Summary An interpretive optimization procedure in which pH can be one of the variables is presented with the emphasis on optimizing separations. When varying the pH in reversed-phase liquid chromatography the retention of ionogenic solutes will change. Thus, the selectivity between ionogenic and neutral solutes or between ionogenic solutes mutually can be optimized. However, pH also greatly affects the efficiency (plate count) and peak shape (asymmetry). Optimum selectivity (i.e. large differences in retention times) may be observed under conditions where peaks are broad and asymmetrical. Thus, it is essential to simultaneously consider retention, peak width and peak shape and their effects on separation (effective resolution) in pH-optimization studies. A procedure in which this is done is presented and applied to optimizing the separation of a synthetic mixture of selected pharmaceuticals. After initial experiments to establish the parameter space (boundaries for pH and binary methanol — water composition), twelve experiments are performed according to a 3×4 experimental design. At each loaction the retention, peak height, peak area and peak symmetry are recorded for each solute. These data are then used to build models for each of the four characteristics and for each solute. From this set of models the response surface, describing the quality of separation as a function of pH and composition, can be calculated. A variety of optimization criteria (quantifying quality of separation) can be used. The optimum corresponds to the highest point on the response surface.     

Computer-assisted transposition of conditions in high-performance thin-layer chromatography to high-performance liquid chromatography for the separation of pesticides

Summary A computer-assisted method is presented for mobile phase selection for the optimal separation of pesticides by HPTLC and HPLC. The system is based on a plot of solute retention value and separation criterion vs. binary mobile phase composition for graphic optimization. The result of HPTLC can be transposed to HPLC for optimal separation. The transposition equation is given.     

Theoretical and experimental comparison of mobile phase consumption between ultra-high-performance liquid chromatography and high performance liquid chromatography

Ultra performance liquid chromatography (UPLC) using small particles and very high pressure has demonstrated higher resolution and speed compared with conventional HPLC. An additional benefit of UPLC is the significantly reduced consumption of mobile phase. This report discusses how column length, particle size, inner column diameter, extra column void volume, and capacity factor contribute to the reduction of mobile phase consumption in UPLC compared with HPLC. In addition, theoretical and experimental comparison of mobile phase consumption was made between isocratic HPLC and UPLC as well as between gradient HPLC and UPLC. Both theoretical and experimental results indicate that UPLC typically saves at least 80% of mobile phase in isocratic and gradient conditions when compared with HPLC.