A green capillary zone electrophoresis method for the simultaneous determination of piperacillin,tazobactam and cefepime in pharmaceutical formulations and human plasma

A green, novel, rapid, accurate and reliable capillary zone electrophoresis method was developed and validated for the simultaneous determination of piperacillin, tazobactam and cefepime in pharmaceutical preparations. Separation was carried out using fused silica capillary (50 µm i.d. × 48.6 cm and 40.2 cm detection length) and applied potential of 20 kV (positive polarity) and a running buffer containing 15 m m sodium borate buffer adjusted to pH 9.3 with UV detection at 215 nm. Amoxicillin was used as an internal standard. The method was suitably validated according to International Conference on Harmonization guidelines. The method showed good linearity in the ranges of 10–100, 20–400 and 10–400 µg/mL with limits of quantitation of 1.87, 3.17 and 6.97 µg/mL and limits of detection of 0.56, 0.95 and 2.09 µg/mL for tazobactam, piperacillin and cefepime, respectively. The proposed method was successfully applied for the analysis of these drugs in their synthetic mixtures and co‐formulated injection vials. The method was extended to the in vitro determination of the two drugs in spiked human plasma. It is considered a ‘green’ method as it consumes no organic solvents. Copyright © 2015 John Wiley & Sons, Ltd.     

Determination of N-Methylpyrrolidine in Cefepime for Injection by Capillary Electrophoresis with Indirect UV Detection

N-Methylpyrrolidine in cefepime for injection was determined by capillary electrophoresis with indirect UV detection. Best results were achieved with background electrolyte consisting of 10 mM creatinine adjusted to pH 3.8 with formic acid and an applied voltage of 30 kV in a bare fused-silica capillary. Indirect UV detection was performed at a wavelength of 225 nm. The application of a small amount of inlet pressure during the separation assisted the attainment of a stable baseline. The optimized method was validated regarding selectivity, linearity, accuracy, precision, ruggedness, repeatability and detection limits. Careful control of capillary conditioning enabled migration time precision values of <0.2% RSD. The use of an internal standard enabled precision values of <1% RSD to be obtained for peak area ratios.     

Determination of cefepime in plasma and cerebrospinal fluid by micellar electrokinetic chromatography with direct sample injection

A simple micellar capillary electrokinetic chromatography (MEKC) with UV detection is described for analysis of cefepime in plasma and cerebrospinal fluid by direct injection without any sample pretreatment. The separation of cefepime from biological matrix was performed at 25 degrees C using a background electrolyte consisting of tris(hydroxymethyl)aminomethane (Tris) buffer with sodium dodecyl sulfate (SDS) as the electrolyte solution. Under optimal MEKC condition, good separation with high efficiency and short analyses time is achieved. Several parameters affecting the separation of the drug were studied, including the pH and concentrations of the Tris buffer and SDS. Using cefazolin as an internal standard, the linear ranges of the method for the determination of cefepime in plasma and cerebrospinal fluid were 1-50 and 1-20 microg/mL, respectively; the detection limits of plasma (signal-to-noise ratio = 3; injection, 5 kV, 5 s) and cerebrospinal fluid (signal-to-noise ratio = 3; injection, 0.5 psi, 3 s) were 0.2 microg/mL and 0.3 microg/mL, respectively. Application of the proposed method for determination of cefepime in plasma and cerebrospinal fluid collected after intravenous administration of 2 g cefepime in patients with meningitis was demonstrated.     

A simple and rapid dispersive liquid-liquid microextraction method followed by GC-FID for determination of N-methylpyrrolidine in cefepime

A simple, rapid and efficient sample preparation technique, dispersive liquid-liquid microextraction, coupled with gas chromatography-flame ionization detection has been developed to determine N-methylpyrrolidine in cefepime. The effect of various experimental factors on the preparation procedure, such as the nature and volume of extraction and disperser solvents, extraction time, the nature of buffer and its pH, and salt effect, was investigated, optimized and the following results were obtained: extraction solvent, chloroform; dispersive solvent and solvent for dissolving cefepime, a mixture of methanol/water (88:12, v/v); salting out agent, NaCl; and buffer, carbonate/bicarbonate (C=0.5?M, pH=12). The optimized conditions were applied to the real sample (cefepime) for the extraction and determination of N-methylpyrrolidine. The calibration graph is linear from 0.02 to 850?mg/L with the square of correlation coefficient 0.999. LOD and LOQ are 6.4 and 21.2?μg/L in solution, respectively, and 0.2 (2×10(-5) ) and 0.6 (6×10(-5) ) μg/g (%, w/w) in cefepime powder, respectively, using sample size 50?mg. Repeatability of the method is good and RSD% for six repeated experiments (C=170?mg/L) is 6.35%.     

Online preconcentration by electrokinetic supercharging for sensitive determination of berberine and jatrorrhizine in biological samples

Electrokinetic supercharging, a convenient and powerful online preconcentration technique in capillary electrophoresis, was introduced and evaluated for the determination of two alkaloids, berberine and jatrorrhizine, in mice fecal samples for the first time. The method depended on using a bare fused silica capillary (50 cm × 50 μm i.d.) and applying the voltage of 25 kV with UV detection at 205 nm. Parameters that affect the separation and preconcentration efficiency have been optimized. The optimum conditions used were as follows: background electrolyte consisting of 40mM sodium dihydrogenphosphate containing 30% methanol (v/v); hydrodynamic injection of 20mM KCl (50 mbar × 150 s) as the leading electrolyte; electrokinetic injection of the sample (+15 kV, 120 s) followed by the hydrodynamic injection of 30mM dodecyl trimethyl ammonium chloride (50 mbar × 12 s) as the terminating electrolyte. The results showed that the detection sensitivity of berberine and jatrorrhizine was, respectively, improved up 2740- and 2928-fold compared with normal injection, providing limits of detection lower than 3 ng/mL with good repeatability in areas (relative standard deviation < 3%). In summary, the developed method proved its ability in analyzing trace alkaloids in complicated biological samples.     

高效毛细管电泳法同时测定多种肽类药物的方法研究

  以血管紧张素Ⅰ,Ⅱ,Ⅲ和P物质、神经激肽、生 长激素释放的抑制因子、神经紧张肽等7种肽类药物混合物为测定对象,用胺涂层的毛细管 柱(57 cm×75 μm i．d．,有效长度为50 cm)对上述混合物的分离条件进行了研究。在 f工作电压为10 kV［（－）→(＋)］、电流为42 μA、检测波长为214 nm、测定温度为2 5 ℃、虹吸进样10 s的条件下,在50 mmol/L的醋酸铵缓冲液(pH 4.5)中,上述混合物可在8 min内得以完全分离。 关键词：     

Determination of homotaurine as impurity in calcium acamprosate by capillary zone electrophoresis.

A method is reported which allows the quantification of homotaurine as an impurity in the drug. After addition of taurine as an internal standard, the sample is derivatised with fluorescamine at ambient temperature in 10 mM borate buffer, pH 9.2. The analytes are separated by capillary zone electrophoresis in a 31.2 cm (21 cm to the detector) x 100 microns I.D. fused-silica capillary at a potential of +7 kV and 25 degrees C. A 40 mM borate buffer, pH 9.2, is used as the electrolyte and detection is carried out at 205 nm. The validation tests showed that the method is reliable between 0.01% and 0.15% (m/m) of homotaurine with respect to the active drug. The limits of quantitation (0.01%, m/m) and detection (0.004%, m/m) allows to control the homotaurine content of the drug substance for which the maximum tolerated level is 0.05% (m/m). The proposed procedure (derivatisation and separation) developed in CE is rapid (20-25 min) by comparison to that currently used in HPLC (75 min). Satisfactory agreement was found between several batches of acamprosate analysed by CE and HPLC.     

Simultaneous determination of cefepime and L-arginine by micellar electrokinetic chromatography and applications to commercial injections

A simple micellar electrokinetic chromatography (MEKC) with UV detection is described for simultaneous analysis of cefepime and L-arginine. The determination of cefepime and L-arginine in pharmaceutical preparations was performed at 25degreesC using a background electrolyte consisting of Tris buffer with sodium dodecyl sulfate (SDS) as the electrolyte solution. Several parameters affecting the separation of the drugs were studied, including the pH and concentrations of the Tris buffer and SDS. Under optimal MEKC conditions, good separation with high efficiency and short analysis times is achieved. Using cefazolin as an internal standard, the linear ranges of the method for the determination of cefepime and L-arginine were over 5-100 microg/mL; the detection limits of cefepime (signal to noise ratio = 3; injection 3.45 kPa, 3 s) and L-arginine (signal to noise ratio = 3; injection 3.45 kPa, 3 s) were 2 microg/mL and 4 microg/ mL, respectively. Applicability of the proposed method for the determination of cefepime and L-arginine in commercial injections was demonstrated.     

Enantioselective analysis of primaquine and its impurity quinocide by capillary electrophoresis

A capillary electrophoretic (CE) method for the baseline separation of the enantiomers of primaquine diphosphate (PQ) and quinocide (QC) (a major contaminant) in pharmaceutical formulations is proposed. Both components were separated under the following conditions: 50 mm tris phosphate buffer (pH 3.0) containing 15 mm hydroxypropyl-gamma-cyclodextrin (HP-gamma-CD) as background electrolyte; applied voltage, 16 kV; capillary temperature, 25 degrees C; detection wavelength, 254 nm; hydrostatic injection, 10 s. The separations were conducted using a 35 cm length and 50 microm i.d. uncoated fused silica capillary column. Under the optimized conditions, the components were successfully separated in about 5 min. Intraday precision of migration time and corrected peak areas when expressed as relative standard deviation ranged from 0.17 to 0.45 and 2.60 to 3.94%, respectively, while the interday precision ranged from 2.59 to 4.20 and 3.15 to 4.21%, respectively. After the validation exercise, the proposed method was applied for the determination of QC impurity in PQ formulations.     

Simultaneous determination of cefepime and vancomycin in plasma and cerebrospinal fluid by MEKC with direct sample injection and application for bacterial meningitis

A simple MEKC with UV detection at 214 nm for simultaneous analysis of cefepime and vancomycin in plasma and in cerebrospinal fluid (CSF) by direct injection without any sample pretreatment is described. The separation of cefepime and vancomycin from biological matrices was performed at 25 degrees C using a BGE consisting of a Tris buffer with SDS and methanol as the electrolyte solution. Under optimal MEKC conditions for biological samples, good separations with high efficiency and short analysis time are achieved. Several parameters affecting the separation of the drugs from biological matrices were studied, including methanol, pH, and concentrations of the Tris buffer and SDS. The linear ranges of the method for the determination of cefepime and vancomycin in plasma and in CSF using imidazole or cefazolin as an internal standard, respectively, were all over the range of 1-30 microg/mL; the detection limits of cefepime and vancomycin in biological matrices (injection 10 kV, 15 s) were 0.3 and 0.5 microg/mL, respectively. The applicability of the proposed method for the determination of cefepime and vancomycin in plasma and CSF collected after intravenous administration of the drugs in patients with meningitis was demonstrated.     

Non-aqueous capillary electrophoresis with diode array and electrospray mass spectrometric detection for the analysis of selected steroidal alkaloids in plant extracts

A capillary electrophoresis (CE) assay has been developed for the quantitation and determination of the impurity profile of the potassium channel blockers 3,4-diaminopyridine and 4-aminopyridine. The compounds were separated from related substances using a capillary of 30 cm effective length, a 50 mM phosphate buffer, pH 2.5 and an applied voltage of 25 kV. The assay was validated with respect to specificity, linearity, range, limits of quantitation and detection, precision and robustness. The method allows the detection and quantitation of impurities at the 0.05% level. The feasibility of the assay was demonstrated by analyzing a commercial sample of 3,4-diaminopyridine. All known related substances could be detected in this sample with the present CE method.     

Multivariate optimization of a capillary zone electrophoresis assay method for simultaneous quantification of metformin and vildagliptin from a formulation

A rapid, accurate, precise, and optimized capillary zone electrophoresis assay was established and validated for the simultaneous quantification of metformin and vildagliptin in tablets. The electrophoretic separation was achieved on an untreated bonded silica capillary with a background electrolyte comprising 25 mM of borate buffer at pH 7.5 at 207 nm. The concentration of the buffer and the pH of BGE were optimized using the multivariate optimization method for determining the retention time and peak area. Furthermore, the sample injection time, capillary oven temperature, and applied voltage were optimized. The capillary zone electrophoresis technique was validated for all required parameters as per the International Conference on Harmonization recommendations. The linearity ranged in the concentrations of 5–500 µg/mL and 5–100 µg/mL with the limit of detections of 0.22 µg/mL and 0.40 µg/mL for metformin and vildagliptin, respectively. In addition, the percent relative standard error for repeatability and inter-day precision was within the acceptable range. The mean recoveries determined by the capillary zone electrophoresis method were 99.2% and 100.4% for metformin and vildagliptin, respectively. Finally, the capillary zone electrophoresis process was effectively used for the assays of metformin and vildagliptin in their solid dosage form, and statistical outcomes were in agreement with the outcomes of the previously validated RP-HPLC method.     

藏药蕨麻多糖水解单糖的毛细管区带电泳分离研究

以1-萘基-3-甲基-5-吡唑啉酮(NMP)为柱前衍生试剂,探讨了毛细管区带电泳模式下对藏药蕨麻多糖水解液中单糖的分离条件。实验采用58.5 cm×50μm i.d.毛细管(有效长度50 cm),55 mmol/L硼酸盐缓冲溶液(pH=9.46),柱温20℃,分离电压22 kV,进样10 s。该法不加任何添加剂,9种单糖可高效、快速基线分离,实现了对藏药蕨麻多糖水解液中单糖的分离和定量分析,结果令人满意。     

胶束电动毛细管色谱法测定消糖灵中的优降糖

 以甲氧苄氨嘧啶为内标,采用胶束电动毛细管色谱法分离测定了新药消糖灵中的优降糖。电泳条件：以25 mmol/L硼砂-30 mmol/L十二烷基硫酸钠（pH 9.0）为电泳介质,未涂层石英毛细管（50 μm i.d.×39.5 cm,有效分离长度34.8 cm）为分离通道,压力进样(68.95 kPa.s),17 kV恒压电泳（28 ℃）,检测波长228 nm。优降糖在14 min内与其他成分得到很好分离,且质量浓度为25 mg/L～275 mg/L时,优降糖可进行定量分析,加标回收率为(100.6±1.4)%。方法简便、快速,结果准确,重现性好,可用于优降糖复方制剂的质量控制。     

Determination of low-molecular-mass organic acids in any type of beer samples by coelectroosmotic capillary electrophoresis

A separation and determination of a mixture of 19 low-molecular-mass organic acids usually present in beer samples was developed using coelectroosmotic capillary zone electrophoresis. A polycation (hexadimetrine bromide, HDB) has been added to the electrolyte, which dynamically coats the inner surface of the capillary and causes a fast anodic electroosmotic flow. The main factors affecting reversal of the EOF such as type of modifier and concentration and influence of organic solvents were studied. Three types of modifiers, two alkylammonium salts (cethyltrimethylammonium bromide and tetradecyltrimethylammonium bromide) and a polycation (HDB) were investigated. The composition of the running buffer results on a 25% 2-propanol, 0.001% HDB and 50 mM sodium phosphate. The different instrumental parameters affecting the capillary electrophoretic separation were also optimized resulting on a -15 kV voltage with a hydrodynamic injection for 7 s with a UV detection at 210 nm. The applicability of the present method has been demonstrated for the determination of organic acids in different beer samples.     

High-sensitivity capillary gel electrophoretic analysis of DNA fragments on an electrophoresis microchip using electrokinetic injection with transient isotachophoretic preconcentration

The research adopted a single-channel microchip as the probe, and focused electrokinetic injection combined with transient isotachophoresis preconcentration technique on capillary electrophoresis microchip to improve the analytical sensitivity of DNA fragments. The channel length, channel width and channel depth of the used microchip were 40.5 mm, and 110 and 50 μm, respectively. The separation was detected by CCD (charge-coupled device) (effective LENGTH=25 mm, 260 nm). A 1/100 diluted sample (0.2 mg/l of each DNA fragment) of commercially available stepladder DNA sample could be baseline separated in 120 s with S/N=2–5. Compared with conventional chip gel electrophoresis, the proposed method is ideally suited to improve the sensitivity of DNA analysis by chip electrophoresis.     

Determination of trace amount of enantiomeric impurity in therapeutic nicotine derivative using capillary electrophoresis with new imaging technology detection

One of the many attempts to stop the danger of tobacco smoking is the development of an anti‐smoking vaccine using nicotine butyric acid (NBA) linked to a carrier protein to produce anti‐nicotine antibodies. NBA is a chiral molecule and there is a need to obtain a high degree of enantiomeric purity. The aim of this work is to develop a novel method for the enantioseparation of NBA and the determination of trace amounts of enantiomeric impurity required by regulatory authorities. This was achieved successfully using high‐performance capillary electrophoresis combined with label‐free intrinsic imaging as new imaging technology. A 50 μm id fused‐silica capillary was used with UV detection at λ₂₁₄ nm and label‐free intrinsic imaging. The background electrolyte consisted of highly sulphated β‐cyclodextrin 10% m/V as a chiral selector in 75 mM phosphoric acid–triethylamine at pH 7.0. Baseline separation and detection of 0.1% and possibly less of the unwanted impurity (R‐enantiomer) were achieved. Also, the detection limits were calculated for both enantiomers. The use of label‐free intrinsic imaging has improved the sensitivity, enabling us to detect trace amounts of enantiomeric impurities.     

Rapid and sensitive determination of phosphoamino acids in phosvitin by N-hydroxysuccinimidyl fluorescein-O-acetate derivatization and capillary zone electrophoresis with laser-induced fluorescence detection

A method was developed for the determination of phosphoamino acids by capillary zone electrophoresis-laser-induced fluorescence detection (argon ion laser, excitation at 488 nm and emission at 520 nm) using derivatization with N-hydroxysuccinimidyl fluorescein-O-acetate (SIFA). Different variables affecting the derivatization (SIFA concentration, derivatization pH, reaction temperature and reaction time) and the separation (type, pH and concentration of buffer, applied voltage and injection mode) were investigated in detail. The optimized separation conditions were 40 mM boric acid buffer (pH 9.2) for background electrolyte, 25 kV for the separation voltage, 25 degrees C for the capillary temperature and 5 s at 0.5 psi for the sample injection. Under the optimal conditions, the SIFA-labeled phosphoamino acids were fully separated within 7 min. The detection limits ranged from 0.1 to 0.3 nM, which are the lowest values reported for capillary electrophoresis (CE) methods. The proposed methodology allowed the rapid, sensitive and selective determination of phosphoamino acids in hen egg yolk phosvitin by the standard addition method. The recovery of these compounds in real sample was 94.0-103.5%. The developed method surpasses previously published CE methods in terms of detection limit, separation time, stability and simplicity of the electrophoretic procedure.     

Enantiomeric purity determination of ketoprofen by capillary electrophoresis: development and validation of the method

A simple, fast capillary electrophoresis method for determining the total ketoprofen content in an oral pharmaceutical formulation is proposed. The addition of 75 mM of heptakis(tri- O-methyl)-beta-cyclodextrin to the background electrolyte allows the quantitation of the enantiomeric impurity of ( R)-(-)-ketoprofen contained in the formulation. A relative limit of detection is proposed as a measure of the lowest detectable enantiomeric impurity and the results show that the method can detect the minor enantiomer at levels as low as 0.04% in ( S)-(+)-ketoprofen. The chiral method was validated following ICH recommendations and the quality parameters obtained show the suitability of the proposed method. The analysis of samples examined during the course of a stability study under chiral and achiral conditions revealed that the total ketoprofen content did not change significantly with time and the enantiomeric impurity range was 0.1-0.4%.