Validation of a strategic approach to high-performance liquid chromatographic method selection

Summary A recently reported chromatographic method selection strategy has been validated using fifteen drug formulations selected randomly from the Belgium Compendium, 1992. On the basis of the hydrophobic and the acidic — basic properties of the sample components, reversed-phase was recommended as the first choice mode for all formulations. For two multicomponent formulations the range of analyte polarity dictated the need for gradient elution. The commerical software DryLab G/plus^® was used for selection of optimum gradient conditions. The results obtained by both isocratic and gradient chromatography are discussed, as is the usefulness of a tailing suppressor in both modes.     

Marked differences between acetonitrile/water and methanol/water mobile phase systems on the thermodynamic behavior of benzodiazepines in reversed phase liquid chromatography

Summary Two different methods were used to determine the separation factor at different temperatures and the Gibbs-Helmholtz parameters ((H), (S)) of two adjacent benzodiazepines on a chromatogram were obtained from plots of ln versus 1/T. We first studied each factor (fraction of water in the ACN/water mixture and column temperatureT), which controls the retention mechanism, and then we examined the simultaneous variation of all these factors. The changes in (H) and (S) in relation to a volume fraction of water in an ACN/water mixture were examined. In the ACN/water system, (H) was fairly constant in the acetonitrile region of 0.52 and appears to be a roughly linear function of for 0.52. In this system (S) is approximately a parabolic function of with an optimum at 0.52. The retention mechanism of ten benzodiazepines was found to be significantly different in the methanol/water and ACN/water mixtures. The separation optimization of these ten benzodiazepines was then considered. A fraction of water of 0.43 in the ACN/water mixture and a column temperature of 44°C gave the most efficient separation conditions in the ACN/water mixture.     

Marked differences between acetonitrile/water and methanol/water mobile phase systems on the thermodynamic behavior of benzodiazepines in reversed phase liquid chromatography

Summary Two different methods were used to determine the separation factor α at different temperatures and the Gibbs-Helmholtz parameters (Δ(ΔH), Δ(ΔS)) of two adjacent benzodiazepines on a chromatogram were obtained from plots of lnα versus 1/T. We first studied each factor (fraction of water ϕ in the ACN/water mixture and column temperatureT), which controls the retention mechanism, and then we examined the simultaneous variation of all these factors. The changes in Δ(ΔH) and Δ(ΔS) in relation to a volume fraction of water ϕ in an ACN/water mixture were examined. In the ACN/water system, Δ(ΔH) was fairly constant in the acetonitrile region of ϕ≤0.52 and appears to be a roughly linear function of ϕ for ϕ≥0.52. In this system Δ(ΔS) is approximately a parabolic function of ϕ with an optimum at ϕ≊0.52. The retention mechanism of ten benzodiazepines was found to be significantly different in the methanol/water and ACN/water mixtures. The separation optimization of these ten benzodiazepines was then considered. A fraction of water of 0.43 in the ACN/water mixture and a column temperature of 44 °C gave the most efficient separation conditions in the ACN/water mixture.     

Optimization of St John's Wort flavonoid separation by reversed phase liquid chromatography on a silica-based monolithic column

Summary An optimization procedure for the separation of flavonoids from St John's Wort by reversed-phase high-performance liquid chromatography on monolithic stationary phase is described. Three-component mobile phase systems are studied using experimental design methodology. The starting experimental domain is a triangle, each vertex of which is a pure component. From preliminary isocratic experiments, truncations in the domain are performed leading to a quadrilateral shape working domain with no symmetry. To cope with both separation and analysis time, desirability functions are used. Optimal conditions are finally given by binary systems and the four flavonoids are separated in less than seven minutes.     

High-performance liquid chromatographic analysis of dinitrobenzene isomers

Summary An efficient, reproducible and rapid high-performance liquid chromatographic method, in normal phase mode, for the analysis of the three dinitrobenzene isomers is described. The method affords good linearity for each isomer in the range 10–160 g ml^–1. The total analysis time is only 10 minutes, and the method shows an accuracy of ±1.25% with a coefficient of variation from 0.30% to 2.85% for different levels of the dinitrobenzene isomers.     

Validation of a high-performance liquid chromatographic method for determination of isoflavonoids in soybeans. Study of the extraction procedure by experimental design

Summary An improved analytical method, reversed-phase high-performance liquid chromatography on a narrow-bore C₁₈ column, has been developed for the simultaneous determination of genistein, daidzein, formononetin, and biochanin A. The method was validated in terms of detection limits, quantitation limits (LOQ), linearity, and precision.LOQ in the 0.04–0.1 μg mL⁻¹ range were calculated, enabling determination of these compounds of nutritional concern at trace levels. Good linearity was demonstrated over three orders of magnitude of concentration for each analyte (r ²=0.998–1.000). The intra-day repeatability was evaluated in terms ofRSD (%) at two concentration levels for each analyte (RSD (%) <1.8%). Good inter-day reproducibility of data was proved by performing homoscedasticity and ANOVA tests (P>0.05 at the 95% confidence level). The method was applied to the determination of genistein and daidzein in yellow soybeans, after optimization of the method for extraction of isoflavonoid aglycones from soybeans by experimental design, i.e. central composite design. Extraction recoveries up to 87±4% were obtained when the corresponding glycosidic forms (genistin and daidzin) were added to soybean samples.     

High-performance liquid chromatographic method for separation and quantification of intact glucosinolates

Summary A simple, economical and efficient HPLC method has been developed for the separation and determination of the individual glucosinolates in rapessed and mustard. The method involves single-step extraction of glucosinolates with boiling water and separation of the individual glucosinolates on a Novapack RP-18 column (3.9 mm ×150mm) with 0.2 M ammonium sulphate as mobile phase. Peaks were monitored at 229 nm. All major glucosinolates could be eluted within 10 min. The method proved effective for routine analysis of glucosinolates.     

A micellar liquid chromatographic method for quality control of pharmaceutical preparations containing tricyclic antidepressants

Summary Micellar liquid chromatography methods for quality control of pharmaceutical preparations (capsules, pills, tablets, injections) containing the tricyclic antidepressants amineptine, amitriptiline, clomipramine, doxepin, imipramine, melitracen and nortriptyline alone or together with other CNS drugs like diazepam, medazepam and perphenazine are described. The methods using micellar solutions of cetyltrimethylammonium bromide as mobile phases and UV detection are rapid and reproducible. Due to the versatility of interactions in micellar liquid chromatography, it is possible determine highly hydrophobic compounds such as TCAs in a short time using mobile phases containing low organic solvent concentrations and usual flow rates, in contrast with the RP-HPLC methods proposed for these compounds. Samples preparation only requires solution and adequate dilution with the mobile phase before injection into the chromatographic system.     

Reversed phase liquid chromatographic retention behavior of polystyrene homopolymers

Summary Isocratic and gradient elution high performance liquid chromatographic measurements of the retention behavior of polystyrene homopolymers with molecular weights ranging from 2 kD to 390 kD were performed using mixed methylene chloride-methanol mobile phases of varying composition and a C-18 chemically bonded stationary phase supported on either 100 Å or 300 Å mean pore diameter silica. Isocratic measurements of the capacity factor, k, for different molecular weight homopolymers as a function of the volume fraction of methylene chloride, , permit determination of the critical composition, _c, which renders k=1 and the local slope, S=–lnk/_c of the lnk- isotherm at =_c, and also the dependence of _c and S on the degree of polymerization, M. Linear gradient elution measurements of _c and S were also performed and compared to the corresponding isocratic measurements. The general retention behavior and the dependence of _c and S on M compare favorably to the predictions of the theory of homopolymer retention and fractionation developed by Boehm, Martire, Armstrong, and Bui (BMAB). Comparison is also made between the present work and the experimental observations of other workers on related chromatographic systems involving hompolymer retention.     

Development and validation of an improved liquid chromatographic method for the analysis of oxytetracycline

Summary An improved LC method is described for the separation of oxytetracycline and its impurities. The separation is much better than that obtained with official pharmacopoeia methods. The method uses XTerra RP-18, 5 μm (25cm×4.6 mm I.D.), a silica-based stationary phase with methyl end-capping, claimed to reduce silanol activity. The column temperature is set at 30°C and a UV detection is performed at 280 nm. Mobile phase containing acetonitrile −0.25 M tetrabutylammonium hydrogen sulfate pH 7.5−0.25 M ethylenediaminetetraacetic acid pH 7.5-water (115:360:160:365,v/v/v/v) is used at a flow rate of 1.0 mL.min⁻¹, to separate the impurities present in oxytetracycline base. A central composite experimental design is used to optimize the separation. A second isocratic method with higher content of acetonitrile is needed to separate the more retained impurities present only in oxytetracycline hydrochloride. The method is robust and shows good selectivity, repeatability, linearity and sensitivity.     

Cholesteric bonded stationary phases for high-performance liquid chromatography: a comparative study of the chromatographic behavior

The properties of four cholesteric bonded stationary phases differing in the nature of the spacer and the end-capping were assessed using simple chromatographic tests based on the retention of nonpolar compounds and of planar or nonplanar probe solutes. All cholesteric columns showed a hydrophobicity close to that of conventional octadecyldimethylsilyl (ODS) materials. Non-end-capped cholesteric bonded phases showed greater selectivity than ODS ones and both end-capped cholesteric bonded phases exhibit behavior intermediate between that of the non-end-capped original material and that of the ODS bonded phase.     

High-performance liquid chromatographic analysis of azlocillin in serum

Summary A rapid and sensitive high performance liquid chromatographic method is described for the determination of azlocillin in serum. This method involves a short manual protein precipitation of the sample followed by an injection into a PR 18 column for separation and quantitation. The mobile phase was a 22% (V/V) solution acetonitrile in phosphate buffer pH 4.8 at a flow rate of 2,5 ml/min. The spectrophotometer detector was set at 220 nm with a sensitivity of 0.08 AUFS.     

Determination of void/dead volume of liquid chromatographic columns containing β-cyclodextrin as the stationary phase. Part II. A new graphical method

Summary A new graphical method is proposed for the determination of the dead/void volume of liquid chromatographic columns with -cyclodextrin stationary phase. Two different approaches are presented which lead to very similar dead volume values for the cyclodextrin columns. The validity of the proposed method is discussed on the basis of column porosity values, as well as the resulting linear relationship between the logarithm of the capacity factor and the number of carbon atoms in the n-alkanol homologs. The method was applied to study the influence of various experimental parameters on the dead volume of cyclodextrin columns.     

HPLC study of the intramolecular cyclization of a new nematogenic molecule. The gas chromatographic properties of the resulting liquid crystal

Summary The internal cyclization of a new phenyldiazene liquid crystal (called A), with an activated methylene group in theortho position to the diazo linkage, has been studied. The kinetics of cyclization were studied at different temperatures and followed by HPLC. Separations were performed on a 30 cm×0.4 cm silica column withn-heptane-tetrahydrofuran-acetonitrile, 190∶20∶5 (v/v), as mobile phase. The Van't Hoff plot (of ln reaction constantk against 1000/T) gives a mean activation energy of 101.3±2.1 kJ mol⁻¹. The analytical properties of A and the final compound B during the decomposition were investigated by gas chromatography on home-made glass capillary columns coated with A. The retention times of the solutes tested became constant when the B/A ratio reached 5, which corresponds to 83% cyclization. The nematic phase of B has interesting properties enabling the separation of the isomers of decalin, the positional isomers of diethylbenzenes and phenols, and some polyaromatic hydrocarbons and their derivatives.     

A new validated high-performance liquid chromatographic method for the determination of EGIS-9933 in rat plasma

Summary A new highly sensitive high-performance liquid chromatographic (HPLC) procedure for determination of EGIS-9933 (a newly developed anxiolytic compound) in rat plasma is described. A gradient, elution method with UV detection at 270 nm has been developed using a mobile phase of a mixture of A: methanol:acetonitrile 1:9 and B:0.5% triethilamine in water, the pH of B was adjusted to 3 with phosphoric acid. Solid phase extraction (SPE) was used for the sample preparation. The calibration was linear in the 10–10000 ng mL⁻¹ concentration range. The limit of quantification was 10 ng mL⁻¹. The bioanalytical method was validated according to internationally accepted criteria for biological samples. Presented at: Balaton Symposium on High-Performance Separation Methods, Siófok, Hungary, September 3–5, 1997.     

High-performance liquid chromatographic assay of bacterial collagenase

Summary The activity of bacterial collagenase Clostridiopeptidase A was estimated using a labelled synthetic peptide, 4-phenylazobenzyloxycarbonyl-L-Pro-L-Leu-Gly-L-Pro-D-Arg, as substrate. The N-protected dipeptide obtained after enzymatic hydrolysis of Leu-Gly peptide bond was quantified by reversed-phase, high-performance liquid chromatography using 4-phenylazobenzyloxycarbonyl-L-Pro-L-Phe as internal standard. The time dependence of the appearance of the hydrolysis product and the dependence of rates of hydrolysis on collagenase concentration were linear. Kinetic parameters for collagenase were determined to test the suitability of the described procedure.     

溶质在两种反相色谱柱中的动力学色谱行为

研究了不同流速下4种溶质在两种不同反相色谱柱上的色谱图及它们的动力学色谱性质,进一步验证了溶质相对保留值(RRT)与流动相流速之间存在良好的双对数线性关系,并对溶质在流速改变时洗脱顺序发生改变的现象从动力学因素上进行了合理的解释;同时还发现色谱填料的孔径及拓扑学构型不同将导致溶质在其上具有不同的动力学色谱参数及动力学色谱行为。     

High-performance liquid chromatographic determination of (−)-cathinone in plasma

Summary High-performance liquid chromatography (HPLC) for the determination of (–)-cathinone in rabbit and human plasma has been studied. The problem of dimerization during extraction from plasma was satisfactorily resolved. Detection was by UV at 257 nm. Concentration levels as low as 24 ng ml^–1 were satisfactorily determined. This level of sensitivity should be adequate for the detection of (–)-cathinone in the blood of khat users and also for the quantitative determination of (–)-cathinone in blood for pharmacokinetic purposes. The applicability of the assay procedure to pharmacokinetic studies is demonstrated.     

High-Performance liquid chromatographic determination of dibromomannitol in plasma

Summary Myelobromol 1,6-dibromo-1,6-dideoxy-D-mannitol (dibromomannitol, DBM) is a bifunctional alkylating agent that has been in clinical use since 1963. It is currently included at high dose in preconditioning regimen for bone marrow transplantation (BMT) and is a main-stay of treatment for polycythaemia vera. A high-performance liquid chromatographic method was developed for the determination of DBM in the plasma. The basis of the assay is a derivatization with sodium-diethyldithiocarbamate at 42°C in the presence of 1-bromo-1-deoxy-3,6-anhydro-galactitol as internal standard (IS). The analysis was carried out on a 250×4mm Hypersil 5 CPS column equipped with a 20×4 mm Hypersil 10 CPS precolumn. The eluent consisted of heptane:isopropyl-alcohol: glacial acetic acid=600:76:80 w/w. The flow rate was 1.2 mL min⁻¹. UV detection was performed at 254 nm. The calibration graph was linear in the concentration range of 2.5–260 μM of DBM in plasma. The limit of detection was 1.0 μM. The precision and accuracy of the method was between the good laboratory practice (GLP) required limits. Presented at: Balaton Symposium on High-Performance Separation Methods, Siófok, Hungary, September 3–5, 1997     

A high-performance liquid chromatographic method for determination of flecainide in human plasma using fluorescence detection

Summary A high performance liquid chromatographic method for the determination of flecainide in serum has been developed. The analysis is performed on a microparticulate silica column. The eluate is monitored by fluorescence detection at an excitation wavelength of 300nm and an emission wavelength of 370nm. No sources of interference were identified and a coefficient of variation of less than 8% was observed on repeated flecainide determinations. The method has a good reproducibility, specificity and accuracy, and can be applied in therapeutic drug monitoring of flecainide in patients.