Analysis of dissolution test sample solutions by high speed capillary electrophoresis

Summary The quantitative use of high speed capillary electrophoresis (HSCE) is examined by applying high voltages across short capillaries. Acceptable performance in terms of injection precision and migration times were achieved within 1–2 minute analysis times. HSCE was used for the novel CE application of dissolution test sample solution analysis. The results generated by HSCE compared well with those generated using validated on-line UV absorbance measurements. It is concluded that HSCE is a viable alternative and supplement to standard analytical methods employed in dissolution test analysis.     

Rapid analysis of spent fixing solutions by capillary electrophoresis

Summary A capillary electrophoretic method for the determination of thiosulphate, bromide, Fe(III)-EDTA chelate and free EDTA in spent fixing solutions has been developed. Free EDTA was complexed with Ni(II) ions prior to analysis. The optimised separations were carried out in a fused silica capillary (57 cm×75 μm I.D.) filled with a borate buffer (100mmol L⁻¹ borate, 0.2 mmol L⁻¹ tetradecyltrimethylammonium hydroxide, pH 8.5; applied voltage, −30kV) using direct UV detection at 214 nm. All four anions were well separated in less than 4 min. The method was applied to the rapid monitoring of spent fixing solutions.     

Determination of rimantadine in pharmaceutical preparations by capillary zone electrophoresis with indirect detection or after derivatization

Summary Rimantadine is synthetic analog of amantadine; both are antiviral agents used for prophylaxis and treatment of influenza A. A capillary zone electrophoretic (CZE) procedure for the determination of rimantadine has been developed. As the direct determination of rimantadine is poorly sensitive because the compound is almost transparent in the UV/Vis range, several indirect methods were studied. Two were found to be the particularly useful: (a) indirect detection using 5 mM 4-methylbenzylamine in 1:4 methanol-water as absorbing background electrolyte, with detection at 210 nm, and (b) derivatization of rimantadine with 1,2-naphthoquinone-4-sulfonic acid in alkaline medium and subsequent determination of the derivative by CZE (40 mM tetraborate, pH 9.2, detection at 280 nm). Uncoated capillary tubing, 44 cm length ×75 μM i.d., was used for both determinations. The detection limits were 0.1 and 2 ppm for methods a and b, respectively. The methods were used to determine rimantadine in pharmaceutical products and for dissolution testing of Flumadin^? tablets.     

Determination of organic acid drug counter-ions by capillary electrophoresis

Summary A capillary electrophoresis method is described for the novel application of quantifying levels of the simple organic acid counter-ions of a variety of basic drugs. These counter-ions are organic acids such as succinic and maleic. The method uses indirect UV detection and an electroosmotic flow modifier. Acceptable precision and detector linearity were obtained using internal standards. Method validation was completed and acceptable data was generated. The method is now in routine use for this type of testing.     

Critical evaluation of buffering solutions for pKa determination by capillary electrophoresis

The performance of the most common and also some other less common CE buffers has been tested for the pKa determination of several types of compounds (pyridine, amines, and phenols). The selected buffers cover a pH ranging from 3.7 to 11.8. Whereas some buffers, like acetic acid/acetate, BisTrisH+/BisTris, TrisH+/Tris, CHES/CHES-, and CAPS/CAPS- can be used with all type of analytes, others like ammonium/ammonia, butylammonium/butylammonia, ethylammonium/ethylammonia, diethylammonium/diethylammonia, and hydrogenphosphate/phosphate are not recommended because they interact with a wide range of compounds. The rest of the tested buffers (dihydrogenphosphate/hydrogenphosphate, MES/MES-, HEPES/HEPES-, and boric acid/borate) can show specific interactions depending on the nature of the analytes, and their use in some applications should be restricted.     

Large volume sample stacking in capillary electrophoresis of weakly acidic compounds using coated capillaries at high pH

Large volume stacking using the electroosmotic flow (EOF) pump (LVSEP) in capillary electrophoresis under a reverse potential is a convenient and straightforward approach for on-line concentration of dilute anionic sample solutions. LVSEP achieves automatic sample matrix removal and subsequent separation without intermediate polarity switching nor complicated instrumental setup. Since anionic analytes should move against the EOF in LVSEP, EOF needs to be suppressed. We extended the range of LVSEP up to pH 11 using various EOF suppression methods, such as dynamic coating by polymer pretreatment and permanent coating. Weakly acidic organic compounds (pK_a<5.2), chlorinated phenols (pK_a=7-9), and aromatic amino acids (pK_a2∼9.3) were concentrated and separated. By hydrodynamically filling the whole capillary of 27 cm long with the sample solution, fast and reliable injection was achieved and sensitivity enhancement factors as large as 170 were readily obtained in less than 8 min.     

Decreasing analysis time in capillary electrophoresis: validation and comparison of quantitative performances in several approaches

Capillary electrophoresis (CE) can be used for the rapid determination of pharmaceuticals, particularly in routine quality control analysis. This paper focuses on several approaches aimed at decreasing the analysis time with commercially available instrumentation by (i) application of a high electric field through a reduced capillary, (ii) use of a dynamically coated capillary to increase the electroosmotic flow, (iii) short-end injection (SEI) technique, and (iv) application of multiple sample injections. Moreover, SEIs were combined with the three other approaches. A pharmaceutical formulation containing lidocaine as an active component was selected, and the methods were validated according to the ICH guidelines. The seven approaches investigated fulfilled different statistical requirements and demonstrated their linearity and trueness, with good recoveries and confidence limits always inferior to 1.5%. Furthermore, relative standard deviation (RSD) values for repeatability and intermediate precision were inferior to 1.1 and 1.8%, respectively. These results confirmed that each approach is of utmost interest to increase the analyte throughput in CE.     

Reproducibility of sample separation using liquid or forced air convection thermostatted high performance capillary electrophoresis systems

Run-to-run sample separation reproducibility has been compared on two commercial high performance capillary electrophoresis units which differ in the mode by which the capillary temperature is thermostatted. Three standard analytes, differing dramatically in molecular character and size, were used for the analysis: benzoic acid, a 14 amino acid peptide from human chorionic gonadotropin, and ribonuclease A represent, respectively, small stable organic molecules, small peptides with little or no secondary structure, and proteins with secondary structure. These standards were evaluated with regard to reproducibility of migration time, peak area, and peak height. The analyses, performed in buffers of optimum pH for the separations, demonstrated that the liquid and forced air convection thermostatted systems both performed extremely well. The reproducibility, as judged by the percent coefficient of variance (% CV) of replicate analyses, was generally found to be less than 1 % (migration time); the reproducibility decreased in the order migration time > peak height > peak area. Whereas the absolute % CV values for MT_rel (migration relative to a standard) observed with the liquid thermostatted system were 2- to 4-fold lower than those observed with the forced air convection thermostatted system, there was little statistically significant difference between the two. As expected, the data indicated a reduction in reproducibility as the complexity of the analyte increased, perhaps as the result of an increased potential for wall interactions. Comparing separations in which low (≈?1 watt/meter [W/m] of capillary) and high (>5 W/m) Joule heat was generated by altering the sodium chloride content of the buffer revealed few statistically significant differences in the reproducibility obtained from the two systems. With these particular standard analytes and their respective buffer systems, there appears to be little difference between forced air convection and liquid thermostatting of the capillary.     

Determination of fenfluramine enantiomers in pharmaceutical formulations by capillary zone electrophoresis

Summary Capillary zone electrophoresis has been used for the enantiomeric separation of racemic ortho-fenfluramine and meta-fenfluramine employing a phosphate buffer at pH 2.5 added with cyclodextrins. The cyclodextrin type and concentration strongly influenced the chiral resolution. The uncharged β-cyclodextrin polymer gave enantiomeric resolution of both ortho and meta isomers, while γ-cyclodextrin was a good chiral selector for only ortho-fenfluramine; heptakis-2,3,6-tri-O-methyl-β-cyclodextrin permitted base line separation of meta-fenfluramine enantiomers but only partial resolution of racemic ortho-fenfluramine. The optimized electrophoretic method was applied to the quantitative analysis of 1-meta-fenfluramine (minor component in the mixture) and d-meta-fenfluramine in a commercial pharmaceutical formulation. Good reproducibility for migration time and corrected peak areas (R.S.D. <0.8 % and <1.2 %, respectively) was achieved and the presence of the minor component of the mixture was found to be in accord to previous determinations performed by other analytical methods.     

Determination of fenfluramine enantiomers in pharmaceutical formulations by capillary zone electrophoresis

Summary Capillary zone electrophoresis has been used for the enantiomeric separation of racemic ortho-fenfluramine and meta-fenfluramine employing a phosphate buffer at pH 2.5 added with cyclodextrins. The cyclodextrin type and concentration strongly influenced the chiral resolution. The uncharged β-cyclodextrin polymer gave enantiomeric resolution of both ortho and meta isomers, while γ-cyclodextrin was a good chiral selector for only ortho-fenfluramine; heptakis-2,3,6-tri-O-methyl-β-cyclodextrin permitted base line separation of meta-fenfluramine enantiomers but only partial resolution of racemic ortho-fenfluramine. The optimized electrophoretic method was applied to the quantitative analysis of 1-meta-fenfluramine (minor component in the mixture) and d-meta-fenfluramine in a commercial pharmaceutical formulation. Good reproducibility for migration time and corrected peak areas (R.S.D. <0.8% and <1.2%, respectively) was achieved and the presence of the minor component of the mixture was found to be in accord to previous determinations performed by other analytical methods.     

Analysis of doxycycline by capillary electrophoresis

Summary Doxycycline is a semi-synthetic broad spectrum antibiotic with improved serum half-lie. Potential impurities are 4-epidoxycycline, 6-epidoxycycline, 4,6-epidoxycycline, metacycline and 2-acetyl-2-decarboxamidodoxycycline. Method development has been undertaken to investigate the potential of capillary electrophoresis for the analysis of doxycycline. The influence of buffer type, buffer pH and concentration was systematically examined, then that of capillary temperature and applied voltage. All the potential impurities could be separated at 15 °C on a 44 cm × 50 μm I.D. fused silica capillary (effective length to detector, 38 cm) with sodium carbonate (70 mM) - EDTA (1 mM), pH 10.50, as background electrolyte and with a voltage of 12 kV. The relative standard deviation was 2.2 % for doxycycline. The limit of detection and quantification for doxycycline were 0.2 and 0.4 %.     

Determination of thermodynamic pKa values of pharmaceuticals from five different groups using capillary electrophoresis

A determination of the thermodynamic acid dissociation constants (pK_a) of 22 frequently used pharmaceuticals using capillary electrophoresis in aqueous media is presented in this work. The investigated pharmaceuticals belong to different pharmacological groups: macrolides, fluoroquinolones, sulfonamides, β‐lactams, tetracyclines, and other miscellaneous pharmaceuticals. The electrophoretic mobilities of the investigated analytes were monitored in a pH range from 2.00 to 10.82. The data were fitted with an appropriate mathematical model using a nonlinear regression analysis to obtain pK_a values. Experimentally obtained data were well described by the mathematical model chosen for each analyte that was confirmed by r² values higher than 0.99 for most of the investigated analytes. Extrapolations to zero ionic strength were used to determine the thermodynamic pK_a values. Experimentally obtained acid dissociation constants were interpreted using structural formulae of investigated analytes and the moieties corresponding to specific pK_a were identified.     

On-line solution stability determination of pharmaceuticals by capillary electrophoresis

Summary Good agreement between the impurity levels in a batch of a related impurity of ranitidine were obtained by CE and HPLC. A solution of the impurity was positioned on the CE autosampler and analysed sequentially. The extent of degradation was monitored by loss of main peak and the formation of two principal degradation products. It was found that after 9.25 hours only 2% area/area of the original impurity remained. Buffering of the sample solution to pH 7 was shown to minimise this degradation.Unattended in-situ stability testing of an solution of the impurity in water was performed by CE.     

Simultaneous determination of uranium carbide dissolution products by capillary zone electrophoresis

Separation and simultaneous determination of a number of organic acid anions (oxalate, mellitate, trimellitate and benzoate) and U(VI) with direct UV detection is developed for analysis of uranium carbide (UC) dissolution products by capillary zone electrophoresis (CZE). Reverse polarity mode is used. It is found that complex formation of U(VI) with carbonate, used as a carrier electrolyte, allows U(VI) to be determined, as negatively charged species, in a single run with organic acid anions. Some parameters such as pH value, composition of electrolyte and detection wavelength are optimized. Under the chosen conditions (carbonate buffer (ionic strength of 100 mM), pH 9.8, 0.15 mM tetradecyltrimethylammonium bromide (TTAB)) a complete separation is achieved. Calibration plots are linear in two ranges of concentration for U(VI) (∼1 × 10⁻⁵ to 1 × 10⁻³), mellitate and trimellitate (∼5 × 10⁻⁶ to 5 × 10⁻⁴), and about one range (∼1 × 10⁻⁴ to 5 × 10⁻³) for oxalate and benzoate. Accuracy of the procedure is checked by the “added-found” method in standard mixture solutions. Relative standard deviation is within the range of 2–10% and the recovery is in the range of 90–110%. This method is applied for the analysis of real UC dissolution samples.     

Isoelectric focusing sample injection for capillary electrophoresis of proteins

Carrier ampholyte-free isoelectric focusing (IEF) sample injection (concentration) for capillary electrophoresis (CE) is realized in a single capillary. A short section of porous capillary wall was made near the injection end of a capillary by HF etching. In the etching process, an electric voltage was applied across the etching capillary wall and electric current was monitored. When an electric current through the etching capillary was observed, the capillary wall became porous. The etched part was fixed in a vial, where NaOH solution with a certain concentration was added during the sample injection. The whole capillary was filled with pH 3.0 running buffer. The inlet end vial was filled with protein sample dissolved in the running buffer. An electric voltage was applied across the inlet end vial and etched porous wall. A neutralization reaction occurs at the boundary (interface) of the fronts of H+ and OH-. A pH step or sharp pH gradient exists across the boundary. When positive protein ions electromigrate to the boundary from the sample vial, they are isoelectricelly focused at points corresponding to their pH. After a certain period of concentration, a high voltage is applied across the whole capillary and a conventional CE is followed. An over 100-fold concentration factor has been easily obtained for three model proteins (bovine serum albumin, lysozyme, ribonuclease A). Furthermore, the IEF sample concentration and its dynamics have been visually observed with the whole-column imaging technique. Its merits and remaining problem have been discussed, too.     

N-methylformamide as a separation medium in capillary electrophoresis

Summary The organic solvent N-methylformamide (NMF) has been used as a separation medium in capillary electrophoresis. The advantageous properties of this compound are its high dielectric constant, high solubilizing power and low conductivity, as well as its amphiprotic character. It was shown that, unlike for most organic solvents, the electroosmotic flow is substantial. It was found to be possible to utilize NMF without added electrolyte. Field strengths exceeding 1000 volts/cm could be employed, while a low current was maintained and it was thus possible to obtain rapid analyses. Also, the properties of NMF allowed the analysis of substances with a low solubility in aqueous media. These features are exemplified by separation of carboxylic acids and pharmaceuticals. Excellent reproducibility of migration and no sign of electrical breakdown were observed, even under high field strength conditions.Presented at the Sixth International Symposium on High Performance Capillary Electrophoresis, Jan. 31–Feb. 9, 1994, San Diego, USA, Poster #P-113.     

Analysis of selected mycotoxins by capillary electrophoresis

Summary The separation of the mycotoxins ochratoxin A, ochratoxin B, zearalenone and moniliformin by standard capillary zone electrophoresis (CZE) and cyclodextrins modified CE is described. In addition, reversed electroosmotic flow (EOF) conditions via quarternary ammonium running buffer additives have been briefly examined. Parameters influencing selectivity and mobility as well as spectroscopic properties of the analytes have also been investigated. Separations performed at pH values from 5 to 11 show a marked pH dependency of the mobilities accompanied by pronounced shifts of the UV/VIS and/or fluorescence spectra of the compounds. In general, the on-line recording of spectra by diodearray detection (DAD), proved to be highly versatile for peak tracking simultaneously with the structure elucidation and thus for the optimization of sample introduction, peak resolution and detection conditions.     

Protein separation by capillary gel electrophoresis: A review

Capillary gel electrophoresis (CGE) has been used for protein separation for more than two decades. Due to the technology advancement, current CGE methods are becoming more and more robust and reliable for protein analysis, and some of the methods have been routinely used for the analysis of protein-based pharmaceuticals and quality controls. In light of this progress, we survey 147 papers related to CGE separations of proteins and present an overview of this technology. We first introduce briefly the early development of CGE. We then review the methodology, in which we specifically describe the matrices, coatings, and detection strategies used in CGE. CGE using microfabricated channels and incorporation of CGE with two-dimensional protein separations are also discussed in this section. We finally present a few representative applications of CGE for separating proteins in real-world samples.