An investigation of microbore reverse-phase columns containing 3 μm packing materials

A procedure for packing 15 cm × 1 mm id reverse-phase microbore columns with 3 μm silicas obtained from different manufacturers is described. The speed of analysis and detection limits are compared to those obtained with a 50 cm × 1 mm id column packed with 10 μm ODS. The effect of detector time constant on the system, and flow rates on column efficiency are also examined.     

The Determination of Folic Acid (Pteroylmonoglutamic Acid) in Fortified Products by Reversed Phase High Pressure Liquid Chromatography

Abstract

A reversed phase HPLC method was developed for the separation and determination of pteroylglutamic acid (PGA) in fortified foods. Extraction was carried out by heating with phosphate-citrate buffer, pH 8.0 containing ascorbate, and incubation with papain at 40°C for 4 hrs. The extracts were purified and concentrated on a short DEAE column which was rinsed with phosphate buffer, pH 7.0, of increasing molarity. PGA was eluted with 0.1M phosphate buffer, pH 7.0, containing 0.5M NaCl. The eluants were chromatographed on a Spherisorb ODS 10 μm column (250 × 4.6 mm) using a 30 min linear gradient of 2% to 30% acetonitrile in 0.1M acetate buffer, pH 4.0, at 1 ml/min and an absorbance detector at 280 nm. The coefficients of variation on analysis of 8 replicate samples of a milk and soy protein based infant formulas were 5.9% (at 4.6 ng/50 μl inject) and 6.8% (at 1.8 ng/50 μl inject) respectively.     

Core–shell column Tanaka characterization and additional tests using active pharmaceutical ingredients

In the last decade, core–shell particles have gained more and more attention in fast liquid chromatography separations due to their comparable performance with fully porous sub‐2 μm particles and their significantly lower back pressure. Core–shell particles are made of a solid core surrounded by a shell of classic fully porous material. To embrace the developed core–shell column market and use these columns in pharmaceutical analytical applications, 17 core–shell C₁₈ columns purchased from various vendors with various dimensions (50 mm × 2.1 mm to 100 mm × 3 mm) and particle sizes (1.6–2.7 μm) were characterized using Tanaka test protocols. Furthermore, four selected active pharmaceutical ingredients were chosen as test probes to investigate the batch to batch reproducibility for core–shell columns of particle size 2.6–2.7 μm, with dimension of 100 × 3 mm and columns of particle size 1.6 μm, with dimension 100 × 2.1 mm under isocratic elution. Columns of particle size 2.6–2.7 μm were also tested under gradient elution conditions. To confirm the claimed comparable efficiency of 2.6 μm core–shell particles as sub‐2 μm fully porous particles, column performances of the selected core–shell columns were compared with BEH C₁₈, 1.7 μm, a fully porous column material as well.     

高效液相色谱–光电二极管阵列法测定虾青素的含量

建立虾青素含量测定的高效液相色谱–光电二极管阵列法。采用Purospher STAR RP 18(4.6 mm×250mm,5μm)色谱柱,以甲醇–水(体积比为95∶5)为流动相,流速1.0 mL/min,检测波长为482 nm,柱温为30℃,进样量为20μL。在所选定的液相色谱条件下,虾青素主峰与其它杂质峰分离良好,虾青素在0.2~16μg/mL范围内线性良好,线性相关系数r=0.999 9,检出限为0.01μg/mL,测定结果的相对标准偏差为0.42%(n=6),平均回收率为100.4%。该法分析快速准确、灵敏度高、重现性好。     

Semimicro Size Exclusion Chromato-Graphy For Oligomers. II. Separation of Oligomers and Comparison With Conventional Columns

Abstract

Sixteen columns of 1.5 mm i.d. × 25 cm length packed with polystyrene gels of a particle diameter 10 ± 2 μm and having the exclusion limit of 8000 molecular weight as polystyrene were connected in series and used for the separation of oligomers such as oligostyrenes, epoxy resins, methylated melamine-formaldehyde resins, and phenol-formaldehyde resins of novolac and resol types. The observed overall value of the number of theoretical plates was 103000 plates/4 m. Separation results were compared with the conventional SEC which used two SEC columns of 8 mm i.d. × 30 cm length packed with PS gels of a particle diameter 6 ± 2 μm and having the same exclusion limit of the semimicro SEC. The value of N of this column was 17500 plates/30 cm. Oligostyrenes up to n = 11 (undecamer) were separated. Methyl ether derivatives of polynuclear methylol melamines up to penta-nuclear methylol melamine were separated. The possibility for separation of overlapping peaks by SEC having clearly higher efficiency was discussed.     

High Performance Liquid Chromatography Separations Using Columns Packed with Spherical ODS Particles. III. Effect of Column Dimensions on the Resolution of a Complex Mixture

Abstract

Separations on short columns, (3 and 5 cm, packed with 3 μ ODS spherical materials) and somewhat larger ones (10 cm and 20 cm columns having 2.1 mm and 4.6 mm diameters packed with 5 μ ODS spherical materials) were compared using Aroclor 1254. With simple mixtures, the results showed that short columns can give separations comparable with those on longer columns when the percentage of the organic modifier in the mobile phase is adjusted. This was not so with more complex mixture. The results also showed that columns which have a comparable volume do not produce comparable separation. The longer column, 200 mm × 2.1 mm gave better resolution than the shorter 50 mm × 4 mm column. Also a shorter column, (100 mm × 4.6 mm), which had double the volume of a longer column. (200 mm × 2.1 mm), gave better resolution of the Aroclor 1254 test solution.     

A Gradient Reversed Phase High Performance Liquid Chromatography Method for Simultaneous Determination of Hydrochlorothiazide (HCT) and Losartan Potassium (LOS) from Tablets.

ABSTRACT

A new, precise, accurate gradient reverse phase high performance liquid chromatography (RP-HPLC) method has been developed for the simultaneous determination of Hydrochlorothiazide (HCT) and Losartan potassium (LOS) in tablets. The stationary phase was Microbondapak C18 column (10 μ, 300 mm × 3.9 mm ID). A gradient elution with an aqueous methanolic mobile phase (pH=3) was employed for the separation. Detection was carried out at 270 nm using UV detector. The flow rate was 1.0 ml/min and retention times were 7.89 minutes and 15.15 minutes for HCT and LOS, respectively. The linearity was obtained in the concentration range of 0.5 - 200 μg/ml for HCT and 2 - 800 μg/ml for LOS. Mean percentage recoveries were 100.29% and 99.16% for HCT and LOS, respectively.     

Monitoring inorganic mercury and methylmercury species with liquid chromatography-piezoelectric detection

A piezoelectric detection system coupled with a liquid chromatographic system is developed for the speciation of inorganic mercury(II) and methylmercury. Piezoelectric detection has been demonstrated to be a very sensitive detection system for total mercury determination when a gold-coated piezoelectric quartz crystal was used. The analytical features of this detection unit make it very suitable to be used as a detector coupled with a liquid chromatographic system for monitoring mercury species. After separation by a chromatography column (Spherisorb ODS-2, 5 μm,  mm i.d.), mercury species are liberated and reduced, by using stannous chloride, and are detected as an amalgam on the gold-coated piezoelectric quartz crystal, the sensor subsequently was regenerated by passing a peroxydisulfate solution. This detector exhibits good sensitivity, it allows the determination of mercury at sub-ppb concentration levels (0.30-1.20 μg l⁻¹). The precision, expressed as relative standard deviation, was ±2.7% (n=11) for a 0.5 μg l⁻¹ total mercury concentration. The proposed method is free of interferences and it allowed the determination of inorganic mercury and methylmercury species in natural waters.     

Semimicro Size Exclusion Chromatography For Oligomers. I. Column Packing Procedure

Abstract

Polystyrene gels of a particle diameter 10 ± 2 μm for the use in oligomer separation were packed into 1.5 mm i.d. × 25 cm length columns by the balanced density slurry-packing technique under a constant flow rate of 500 μL/min. The slurry solvent was a mixture of toluene and chloroform (50.5/49.5, v/v). The example of the number of theoretical plates (N) of these columns was 8600 plates/25 cm (HETP = 29.1 μm) at flow rate of 40 μL/min by injecting 1 μL of 0.5% benzene solution. Sixteen columns were connected and the overall value of N was 103000 plates/4 m. A typical example of oligomer separation was demonstrated. A constant-flow technique is preferable to a constant-pressure technique. When two or three column blanks were packed together, the columns located at the outlet of the packer-column assembly had higher values of N. Optimum flow rate of the slurry solvent when three column blanks were packed together lay between 400 and 500 μL/min. The packing efficiency, that is, the probability of getting valid columns was about 60%. Viscous slurry solvents were not effective to get efficient columns. To pack gels in the less swollen state gave sometimes efficient columns. Pressure monitoring in progress of packing was very effective to foresee the column efficiency.     

Practical assessment of frictional heating effects and thermostat design on the performance of conventional (3 μm and 5 μm) columns in reversed-phase high-performance liquid chromatography

A practical investigation of frictional heating effects in conventional C18 columns was undertaken, to investigate whether problems found for sub-2 μm columns were also present for those of particle size 3 μm and 5 μm and different internal diameter. The influence of a water bath, a still air heater, and a forced air heater on performance was investigated. Heating effects were substantial, with a decrease in k of almost 15% for toluene over the flow rate range ∼0.4–2.3 mL/min with a 15 cm × 0.46 cm ID column packed with 3 μm particles. Heating effects on retention increased with increasing solute k, with increase in the column ID, with decrease in the column particle size, and with decrease in the set column oven temperature. While the water bath minimised axial temperature gradients and thus its effect on k, radial temperature gradients were potentially serious with this system, especially at high mobile phase velocity, even with columns containing 5 μm particles. In contrast to the effects of axial temperature gradients in 4.6 mm columns, very little difference in Van Deemter plots was noted between the three different thermostats with 2 mm ID columns, even when 3 μm particles were used. However, the efficiency of 2 mm columns for peaks of low or moderate k (k < 4) can be compromised by the extra dead volume introduced by the heating systems, even with conventional HPLC systems with otherwise minimised extra column volume.     

Effect of Column Dimensions on HPLC Separations Using Constant Volume Columns

Abstract

The effect of column dimension on resolution, sample capacity, retention time, efficiency and mobile phase composition were studied, using both constant flow rate and constant linear velocity. The four columns selected (A = 238 × 3.2 mm, B = 153 × 4.0 mm, C = 116 × 4.6 mm and D = 50 × 7 mm) had the same volume. K¹ values were found to be constant, within experimental error, for all columns. At constant linear velocity, the retention time was found to be a linear function of column length, while at constant flow rate retention time was constant for all columns. The longest column (A) generated the largest N values while columns 3 and C gave the lowest H values, for dilute solutions, while they decreased with decreasing column length. On the other hand, it was observed that as the sample size increased, N generated by column A decreased more rapidly and eventually fell below the values generated by columns B and C. These two columns (B & C) can tolerate a larger sample size with less reduction in N value than the longest column. It is important to note that although there were minor differences in performance between columns B and C, there were significant differences between them (B and C) and the other two columns (A and D). Column A offered the highest sensitivity (narrower peaks) for dilute solutions, while columns B and C offered higher loadability. The volume of organic modifier in the mobile phase affected the retention equally in the four columns. It was also found that equal separation (a) was obtained for each column at constant flow rate and constant linear velocity, except with the latter the retention times were longer.     

Simultaneous LC Estimation of Glimepiride and Metformin in Glimepiride Immediate Release and Metformin Sustained Release Tablets

In the present study, a simple, rapid and precise liquid chromatographic method was developed and validated for the simultaneous determination of glimepiride and metformin in sustained release formulation. The separation was achieved on a Nucleosil 100-5SA column, 250 × 4.6 mm i.d., 5 μm using a mobile phase composed of 1.7 % ammonium dihydrogen phosphate buffer pH 3.0: acetonitrile (70:30 v/v).The instrumental settings were a flow rate of 1.0 ml min^?1 and a detector wavelength of 230 nm. The retention time of glimepiride and metformin were 5.1 and 11.3, respectively. The developed method was validated in terms of specificity, sensitivity, linearity, range, accuracy, precision and ruggedness. The proposed method was successfully applied to the sustained release pharmaceutical dosage form for the simultaneous determination of glimepiride and metformin without any interference by excipients.     

Comparison of various reversed-phase columns for the simultaneous determination of ephedrines in urine by high-performance liquid chromatography

Different reversed-phase columns for basic analytes were compared for the simultaneous determination of ephedrines in urine, such as LiChrospher 60 RP-Select B, LiChrospher 100 RP18, Hypersil BDS-C18, Inertsil ODS-2, Spherisorb ODS-B and Symmetry Shield RP8. Symmetry Shield was the only column which did not require the use of high concentrations of buffer and triethylamine. With this column, a good separation of the six ephedrines and the internal standard was achieved using 50 mM phosphate buffer–25 mM triethylamine as a mobile phase. Linearity, precision and accuracy were satisfactory for the levels usually found in urine. Due to these all parameters the developed analytical method was found to be suitable for the application in the doping field.     

Gas Chromatography–Mass Spectrometry Determination of Pregabalin in Human Plasma Using Derivatization Method

A gas chromatography–mass spectrometry method for the determination of pregabalin in human plasma is described. The procedure involves precipitation of protein, liquid–liquid extraction with ethylene glycol monomethyl ether, and derivatization with 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide in the presence of N-hydroxysuccinimide as additive. Separation was attained on HP column (30 m × 0. 25 mm ID, 0.25 μm) coupled with mass spectrometric detector using electron impact selected ion monitoring. The assay showed an excellent linearity in the concentration range of 0.36–10 μg mL^?1 with correlation coefficient (r²) values of 0.999. The intra- and inter-day assay variations for three different concentration levels were less than 10%. The limit of quantification was detected at 0.36 μg mL^?1. The method is highly specific, precise, accurate, and reproducible and could also be applied for the determination of pregabalin in human plasma.     

Simultaneous Determination of Norfloxacin and Tinidazole in Tablets by Reverse Phase High Performance Liquid Chromatography (RP - HPLC).

Abstract

A new simple, precise, rapid and selective HPLC-RP method has been developed for the simultaneous determination of Norfloxacin and Tinidazole in formulations, using 0.2 % Triethylamine (TEA) in water : Acetonitrile (80:20,v/v) and pH adjusted to 2.6 to 2.8 with Phosphoric acid, as a mobile phase, and C₁₈ SHODEX column (5 micron, 25 cm × 3.9 mm, ID) as stationary phase. Detection was carried out using a UV detector at 311 nm Linearity range and percentage recoveries for Norfloxacin and Tinidazole were 20 - 200 μg/mL and 30 - 300 μg/mL, 999.91 % and 99.94 % respectively.     

Gas chromatography of hydrocarbons using packed liquid chromatographic capillary columns

Capillary columns of 0.3-0.5 mm i.d. packed with 3- to 30-μm silica-based stationary phases for liquid chromatography were used for gas chromatographic separation of hydrocarbons. Column efficiencies were evaluated for various commercially available packing material. The best column efficiency was achieved with 5-μm octadecyl group bonded silica gel, the surface of which was coated with a poly (dimethylsiloxane) film. The 30-cm column produced 11,000 theoretical plates.     

Simultaneous LC Estimation of Glimepiride and Metformin in Glimepiride Immediate Release and Metformin Sustained Release Tablets

In the present study, a simple, rapid and precise liquid chromatographic method was developed and validated for the simultaneous determination of glimepiride and metformin in sustained release formulation. The separation was achieved on a Nucleosil 100-5SA column, 250 × 4.6 mm i.d., 5 μm using a mobile phase composed of 1.7 % ammonium dihydrogen phosphate buffer pH 3.0: acetonitrile (70:30 v/v).The instrumental settings were a flow rate of 1.0 ml min⁻¹ and a detector wavelength of 230 nm. The retention time of glimepiride and metformin were 5.1 and 11.3, respectively. The developed method was validated in terms of specificity, sensitivity, linearity, range, accuracy, precision and ruggedness. The proposed method was successfully applied to the sustained release pharmaceutical dosage form for the simultaneous determination of glimepiride and metformin without any interference by excipients.

     

Development and Validation of an HPLC Method for Simultaneous Determination of Ibuprofen and 17 Related Compounds

A reversed-phase high-performance liquid chromatography (RP-HPLC) method was developed and validated for determination of ibuprofen and 17 related compounds (chemical process impurities and degradation products) simultaneously. This method may be used for quality control of ibuprofen-containing substances. A number of chromatographic parameters (column, flow rate, temperature, wavelength, gradient elution, buffer solution, and pH) were evaluated. An Agilent ZORBAX Eclipse Plus C18 (250 × 4.6 mm, 5 μm particle size) column at 40 °C was selected on the basis of its separation efficiency and robustness. The column was eluted at 1.0 mL min^?1 with a gradient using 10 mM sodium phosphate buffer at pH 6.9 as mobile phase A and acetonitrile as mobile phase B. The ultraviolet detector was set at 214 nm. This method was validated to confirm its system suitability, specificity, linearity, precision, accuracy, sensitivity, robustness, and sample stability according to international conference on harmonization (ICH) guidelines. This method was applied to analyze seven batches of ibuprofen drug products from different manufacturers.     

Analysis of ginseng root and leaf by multiple columns and detections liquid chromatography

Abstract

A multiple columns and detections liquid chromatography system, including size exclusion chromatography (SEC) and reversed phase liquid chromatography (RPLC), for the analysis of macromolecules and micromolecules in ginseng root and leaf was developed. The columns were connected by two switching valves. Macromolecules were separated on a SEC column (TSK gel SuperMultipore PW-H column, 6?mm× 150?mm, 8?μm) by isocratic elution of 50?mM ammonium acetate aqueous solution, 0.3?mL/min of flow rate and detected by evaporative light scattering detection (ELSD). Micromolecules were analyzed on a Poroshell RP column (Agilent Poroshell 120?SB-Aq column, 4.6?mm × 50?mm, 2.7 µm) with gradient elution of water and acetonitrile, 0.6?mL/min of flow rate and detected by ultraviolet detection (UV). As a result, in the macromolecules chromatogram of ginseng root sample showed two main peaks while only one major peak for ginseng leaf. For micromolecules analysis, 17 compounds (3 nucleosides + 14 saponins) and 17 compounds (3 nucleosides + 1 flavonoid + 13 saponins) were found in ginseng root and leaf, respectively. The developed method is helpful for the quality evaluation of ginseng root and leaf.     

The Effects of the Column Length on the Efficiency of Capillary Zwitterionic Organic Polymer Monolithic Columns in HILIC Chromatography

Organic polymer monolithic columns of different lengths have been prepared in 320 µm i.d. fused silica capillary by in situ radical polymerization of N,N-dimethyl-N-methacryloxyethyl-N-(3-sulfopropyl) ammonium betaine as a zwitterionic functional monomer and bisphenol A glycerolate dimethacrylate as a crosslinking monomer in the presence of porogenic solvents. The zwitterionic monolithic columns are intended for separations of polar compounds in hydrophilic interaction chromatography (HILIC). The effects of the capillary column length, from 115 to 175 mm, on separation efficiency, were investigated under HILIC conditions, using 95:5 acetonitrile in water as the mobile phase. The extra-column contributions to band broadening significantly decrease the efficiency (apparent height equivalent to a theoretical plate), especially for weakly retained samples, and increase with diminishing column length. The experimental height equivalents of theoretical plate, HETP, were corrected for the extra-column contributions, which were determined for a series of columns by extrapolation to zero column length. On a 175 mm long column, the column efficiency, HETP = 16.5 μm, measured at the optimum linear flow velocity of 0.5 mm s⁻¹, improved to HETP = 5 µm, after correction for extra-column contributions. For more strongly retained small polar compounds, interactions with zwitterionic groups and (or) water adsorbed inside the pores decrease the column efficiency at higher flow rates.