Instrumental validation in capillary electrophoresis and checkpoints for method validation

Capillary electrophoresis (CE) is increasingly being used in regulated and testing environments which demand validation. The design, development and production of CE instrumentation should be governed by qualifications which ensure the quality of the finished product. The vendor should therefore provide guidelines and procedures which assist the user in ensuring the adequate operation of the instrumentation and especially in designing installation qualification (IQ) and operational qualification/performance verification (OQ/PV) procedures. OQ/PV should test those functions of an instrument which directly affect the CE analysis, i.e. voltage, temperature, injection precision and detector function. In validation of CE methods care should be taken that those aspects which directly affect the precision of peak parameters are appreciated. The relationship between CE instrumentation, chemistry and validation parameters is discussed and guidelines are presented for definition of a CE method for submission to regulatory authorities.     

Development and validation of a capillary electrophoresis method for the characterization of protegrin IB-367.

A capillary electrophoresis (CE) method was developed to characterize protegrin IB-367, an antimicrobial peptide being developed for the treatment of oral mucositis and for other topical applications. The electrophoretic purity and levels of potential impurities/degradation products of IB-367 drug substance are determined by CE using area normalization. Electrophoresis parameters were optimized to allow optimal resolution, reproducibility and minimal analysis time. The separation and resolution between this polycationic peptide and truncated analogs determined by the CE method was much greater than those by the HPLC methods. In addition, the CE methods separates the potential impurities/degradation products from each other while the HPLC methods failed to resolve them. The CE method was validated in the aspects of accuracy, precision, linearity, range, limit of detection, limit of quantitation, specificity, system suitability and robustness. An internal standard was used for the quantitation purpose. The selection criteria of the internal standard as well as the method validation results are presented. The truncated peptide analogs were used to demonstrate the specificity of the method. These analogs were also used to evaluate the limit of quantitation of potential impurities. The relative response factors of these analogs were assessed to determine area normalization feasibility. System suitability tests were established.     

Development and validation of a capillary zone electrophoresis method for the quantitative determination of anthocyanins in wine

A capillary zone electrophoresis (CZE) method is proposed for the quantitative determination of anthocyanins in wine as an alternative to high-performance liquid chromatography. The CZE separation was carried out using a 46 cm (effective length)×75 μm I.D. fused-silica capillary at 10 °C and a 50 mM sodium tetraborate buffer at pH 8.4 with 15% of methanol as modifier. A voltage of 25 kV and a hydrodynamic injection of 300 mbar s were used. The electropherograms were recorded at 599 nm. It was found that SO₂ (antibacterial and antioxidant agent added to wine during its production) increased the absorbance of anthocyanins at 599 nm in a basic medium. Therefore, a concentration of 250 mg/l of SO₂ was added to the samples and the calibration solution before the analysis in order to avoid errors by this matrix effect. The analytical response was linear (R=0.998) between 10 and 700 μg/ml of malvidin-3-O-glucoside. The limit of detection and the reproducibility (as a relative standard deviation, n=11) were 1 μg/ml and 1.5%, respectively. Finally, the CZE method was validated by the analysis of synthetic wine samples (errors less than 8%) and by the comparison of the results obtained in the analysis of different monovarietal wines by CZE with those obtained by the standard HPLC method. In this comparison, a good correlation (R=0.998) with a slope of 1.005±0.044 and an intercept of −0.752±6.690 was obtained for malvidin-3-O-glucoside.     

Development and validation of a high-precision capillary electrophoresis method for main component assay of ragaglitazar

The ability of a developed capillary electrophoresis (CE) method for fast, efficient and reliable main component assay of ragaglitazar [NNC 61-0029/DRF(-)2725] has been demonstrated through documentation of the analytical performance and the results of a successful validation. The fast analysis time of around 1.2 min ensures a high analytical capacity, and the validation results show that the CE method is robust and gives reliable and precise results. The results from the validation of the CE method meet the acceptance criteria that are normally set for other main component assays such as high-performance liquid chromatography assays.     

Approaches to optimisation of precision in capillary electrophoresis

Summary A study has been performed to obtain insight into the relative importance of critical factors affecting the repeatability of hydrodynamic injections in CE. Precision was measured for repeated analysis of a test mixture containing two acidic compounds.The use of an internal standard was clearly shown to improve precision especially when peak area precision was poor. It is suggested that precision is maximised by employing a combination of a constant temperature, an appropriate electrolyte system, an internal standard, long injection times, and high sample concentrations. Other factors are discussed, but are classified as having only a minor impact.     

Analysis of resveratrol in wine by capillary electrophoresis

Capillary electrophoresis (CE) is a new analytical technique that has recently been reported as a method for analysis of resveratrol in wine. Several different separation approaches have been taken in these reports. In comparison with high-performance liquid chromatography (HPLC), CE methods have similar sensitivity and can discriminate between trans- and cis-isomers of resveratrol. CE methods also show promise for analysis of other flavonoid antioxidants (glycosides and aglycones) in wine.     

An overview of method validation and system suitability aspects in capillary electrophoresis

Summary Although capillary electrophoresis (CE) methods have been included in some regulatory submissions, the formal requirements for validation of such methods are not well-defined or universally understood. This paper provides a general overview of the aspects of method performance which need to be considered during the validation of CE methods particularly emphasising areas of similarity with, and differences between, HPLC and CE. The individual aspects of method performance are reviewed and guidance given, with illustrative literature examples where possible, on how to carry out suitable validation studies. Performance criteria are also provided, wherever possible. In this way, a suggested validation approach for CE methods is presented, reflecting the similarity with that generally adopted for HPLC methods, but accommodating those aspects which are different for, or peculiar to, CE.     

Development and validation of a fast method for determination of free glycerol in biodiesel by capillary electrophoresis

In this study, a capillary electrophoresis (CE) methodology for the determination of free glycerol in biodiesel using oxidative cleavage with periodate was optimized and validated. The amount of iodate produced in the reaction was determined by CE. The optimized electrolyte was 20 mmol L(-1) glycine and 10 mmol L(-1) trifluoroacetic acid (direct UV detection, 210 nm). The short total analysis time (less than 28 s) was obtained using the short end injection mode. The optimization of the method was carried out using Peakmaster software. The choice of the components of the run electrolyte and of the internal standard (nitrate) was made through the use of effective mobility curves. A good correlation coefficient higher than 0.9991 and low LOD 4.3 mg L(-1) was obtained. The recovery of free glycerol was 95.4-102.4%. This method was used to determine glycerol in commercial biodiesel samples.     

Optimization and validation of an enantioselective method for a chiral drug with eight stereo-isomers in capillary electrophoresis

Highly selective capillary electrophoresis (CE) screening methods were applied to find a satisfactory separation of a chiral drug with eight stereoisomeric compounds. The initial separation conditions were further optimized using response surface modelling by applying a Box-Behnken experimental design. This approach resulted in a rapid and efficient optimization of the buffer concentration, the concentration of two cyclodextrins, and the run voltage, in order to obtain final separation conditions of the method. Further optimization and validation of the system in terms of sensitivity and robustness resulted in a method that is suitable for quality control release purposes.     

Optimisation and validation of a capillary electrophoresis method for the simultaneous determination of diazepam and otilonium bromide.

A simultaneous assay of diazepam and otilonium bromide in coated tablets by capillary zone electrophoresis (CZE) was developed. The influence of various parameters (voltage, temperature, buffer concentration and pH, ethanol percentage) on analysis time and on the theoretical plates of the two peaks was investigated by means of experimental design. A response surface study was carried out by means of a 27-run D-optimal matrix. The best background electrolyte was found to be 0.13 M, pH 2.9 Britton-Robinson buffer, containing 10% v/v ethanol. Other optimised parameters were voltage (30 kV) and temperature (30 degrees C). The UV detector for quantitation of otilonium bromide and diazepam was set at 280 nm and 230 nm, respectively. Procaine hydrochloride was used as internal standard and run time was less than five minutes. Validation was performed, for drug substance and drug product, according to ICH3 guidelines. For drug product the recovery for otilonium bromide and diazepam ranged from 98.3% to 101.2% and from 97.1% to 99.0%, respectively; the RSD values found for otilonium bromide and diazepam ranged from 2.4% to 3.0% and from 1.1% to 4.5%, respectively.     

Development and validation of a simple capillary zone electrophoresis method for the analysis of kanamycin sulfate with UV detection after pre-capillary derivatization

Capillary zone electrophoresis was successfully applied to separate eight related substances of kanamycin and several minor unknowns from the main component. Strategies to enhance derivatization and selectivity and to optimize separation parameters involved the application of experimental designs. This chemometrical approach considers main effects as well as interactions of the influential parameters, thus conducting a more thorough investigation of the method than the common step-by-step approach. Central composite face centered designs established optimal separation conditions: 30 mM borax buffer, pH 10.0 containing 16.0% (v/v) methanol and optimal composition of derivatization reagent: 27 mg/ml 1,2-phthalic dicarboxaldehyde and 25 microl/ml mercaptoacetic acid in borate buffer, pH 10.4. The standard curves were linear over the concentration range of 0.007-1.01 mg/ml for the main component and 0.003-0.1 mg/ml for the related substances. The limit of quantitation was 0.14% (m/m) for the related substances and impurities (S/N= 10). The assay method was used to determine the composition of several commercial samples. Quantitative analysis indicates potential usefulness of capillary electrophoresis as an alternative to the assay method prescribed in the European Pharmacopoeia and the United States Pharmacopeia.     

Development and validation of a capillary electrophoresis method for the measurement of short-chain organic acids in natural rubber latex

Short-chain organic acid contents in serum of natural latex are interesting to measure and capillary electrophoresis (CE) has proved to be a good tool for their study. In the present work a method has been developed to identify the short-chain organic acids present in sera of natural rubber latex (oxalic, formic, fumaric, aconitic, succinic, malic, glutaric, citric, acetic, glycollic, propionic and quinic acids), the separation was optimised and the quantification method validated. The separation was performed on a CE system with UV detection at 200 nm. The separation was carried out with an uncoated fused-silica capillary (57 cm x 50 microm I.D.) and was operated at -10 kV potential. The separation buffers were prepared with 0.5 M H3PO4, 0.5 mM cetyltrimethylammonium bromide and pH adjusted by adding NaOH to 6.25 except for propionic acid which was better measured at pH 7.00. Validation parameters are adequate and limits of detection range from 0.005 mM to 1.6 mM. Short-chain organic acids were measured with this method in sera of three different types of latex.     

Development and validation of capillary electrophoresis method for tobramycin with precapillary derivatization and UV detection

One of the major drawbacks in the analysis of aminoglycoside antibiotics is their lack of UV chromophore and/or fluorophore. Tobramycin, a representative member of this group, was examined in this study. To overcome the detection hurdle, a precapillary derivatization followed by capillary electrophoresis analysis with direct UV detection was investigated. A central composite design was applied to optimize the method and three parameters were selected in this study: buffer pH, temperature and % acetonitrile (ACN). Selectivity between tobramycin main component and its adjacent peaks as well as the peak efficiency and symmetry factors were established as responses. For each response, a model was obtained by a second-order mathematical expression. Successful results were obtained with a simple background electrolyte (BGE) containing 30 mM sodium tetraborate, pH 10.2, and ACN (75:25 v/v). Under these conditions, baseline separation of tobramycin from its adjacent kanamycin B and an unknown peak was achieved. A temperature of 20 degrees C and applied voltage of 28.0 kV were used. The method showed good validation data in terms of precision, limits of quantitation and detection, specificity and linearity and was found to be suitable for analysis of tobramycin bulk pharmaceutical samples.     

Development and validation of a capillary electrophoresis method with ultraviolet detection for the determination of the related substances in a pharmaceutical compound

A capillary electrophoresis (CE) method was successfully developed to quantify the impurity profile of a new substance of pharmacological interest: LAS 35917. CE method was developed in order to separate the chloromethylated, monomethylated and hydroxylated impurities (molecules with very similar chemical structures) having the three coelution in the reversed-phase LC method initially established. Taking into account the structure of the impurities of LAS 35917, separation by conventional liquid chromatography (LC) methods would be longer and tedious than separation by CE, which is an appropriate and versatile technique giving easier and quicker methods. Among the three potential impurities mentioned of LAS 35917, two are due to the synthesis route of this drug, and the third arises from degradation. These drug-related impurities were separated using a capillary of 56 cm of effective length and 50 microm I.D., a 60 mM tetraborate buffer, at pH 9.2, and a positive voltage of 20 kV. The optimised CE method was preliminary validated with regard to specificity, linearity, limits of detection and quantitation, repeatability and solution stability. The method allows the detection and quantitation of impurities above 0.04 and 0.08% level, respectively. All three related substances were separated, detected and quantified from their parent drug in the analysis of real samples of LAS 35917, stressed or not stressed, with this simple and fast CE method.     

Development and validation of a method for quantitative determination of econazole nitrate in cream formulation by capillary zone electrophoresis

A simple, fast, inexpensive and reliable capillary zone electrophoresis (CZE) method for the determination of econazole nitrate in cream formulations has been developed and validated. Optimum conditions comprised a pH 2.5 phosphate buffer at 20 mmol L(-1) concentration, +30 kV applied voltage in a 31.5 cm x 50 microm I.D. capillary. Direct UV detection at 200 nm led to an adequate sensitivity without interference from sample excipients. A single extraction step of the cream sample in hydrochloric acid was performed prior to injection. Imidazole (100 microg mL(-1)) was used as internal standard. Econazole nitrate migrates in approximately 1.2 min. The analytical curve presented a coefficient of correlation of 0.9995. Detection and quantitation limits were 1.85 and 5.62 microg mL(-1), respectively. Excellent accuracy and precision were obtained. Recoveries varied from 98.1 to 102.5% and intra- and inter-day precisions, calculated as relative standard deviation (RSD), were better than 2.0%. The proposed CZE method presented advantageous performance characteristics and it can be considered suitable for the quality control of econazole nitrate cream formulations.     

Development and validation of a capillary zone electrophoresis method for the determination of propranolol and N-desisopropylpropranolol in human urine

A simple, rapid and sensitive procedure using solid phase extraction and capillary zone electrophoresis for the determination of propranolol (a beta-blocker) and one of its metabolites, N-desisopropylpropranolol, has been developed and validated. The optimum separation of both analytes was obtained in a 37 cm × 75 μm fused silica capillary using 20 mmol/L phosphate buffer (pH 2.2) as electrolyte, at 25 kV and 30 °C, and hydrodynamic injection for 5 s. Prior to the electrophoretic separation, the samples were cleaned up and concentrated using a C₁₈ cartridge and then, eluted with methanol, allowing a concentration factor of 30.Good results were obtained in terms of precision, accuracy and linearity. The limits of detection were 28 and 30 μg/L for N-desisopropylpropranolol and propranolol, respectively. Additionally, a robustness test of the method was carried out using the Plackett-Burman fractional factorial model with a matrix of 15 experiments.The presented method has been applied to the determination of both compounds in human urine.     

在线富集二维毛细管电泳分析新体系检测尿样中药物及对映体

将在线富集技术同二维(2D)毛细管电泳(CE)分离相结合同时提高复杂样品中痕量组分的分离度和检测灵敏度.毛细管区带电泳(CZE)作为第一维,分析物根据淌度不同进行分离,第一维流出组分进入第二维毛细管,根据分配系数不同进行胶束电动毛细管色谱(MEKC)分离.采用阳离子选择性耗尽进样(CSEI)在柱预富集,延长进样时间,增大进样量;同时在二维毛细管接口处采用动态pH联接/胶束扫集在线富集技术不仅避免第一维分离组分在接口处扩散,还可进一步压缩样品区带.同常规电动进样CE分离相比,该在线富集二维分离技术的分离能力远远高于一维CZE或MEKC分离,富集倍数达到(0.5～1.2)×104.该法成功应用于人体尿样中四种药物及对映体的分析测定,浓度检出限为0.1～0.3μg/L.进一步研究了人体尿样中四种药物24h内的药代动力学规律.     

Validated method for L-ornithine-L-aspartate analysis in human plasma by capillary electrophoresis

A rapid capillary electrophoresis method for routine determination of two amino acids, L-ornithine and L-aspartic acid, in human plasma is reported. The method runs automatically, requires a minimum of sample preparation and moreover includes no extensive extraction and no gradient or derivatization procedure. Analyses were performed on an uncoated silica capillary using buffer solution composed with 10 mM sodium tetraborate and 1 M sodium hydroxide (pH=10.0). A capillary electrophoresis P/ACE system equipped with UV detection (200 nm), an automatic injector, a fluid cooled cartridge and System Gold data station was used in this study. The total analysis time under these conditions was 8.0 min. The calibration curve was linear in the range 10-280 microg mL-1 for L-aspartic acid and 20-280 microg mL-1 for L-ornithine (for both amino acids, r=0.999). The method was validated by inaccuracy (bias) and precision (RSD) studies by analysing samples. The method was successfully applied to the quantitative determination of L-ornithine-L-aspartate in human plasma and could be useful for clinical and bioavailability investigations.     

Optimization and validation of a capillary zone electrophoretic method for the analysis of several angiotensin-II-receptor antagonists

We optimized a capillary zone electrophoretic method for separation of six angiotensin-II-receptor antagonists (ARA-IIs): candesartan, eprosartan, irbesartan, losartan potassium, telmisartan, and valsartan. A three-level, full-factorial design was applied to study the effect of the pH and molarity of the running buffer on separation. Combination of the studied parameters permitted the separation of the six ARA-IIs, which was best carried out using 60 mM sodium phosphate buffer (pH 2.5). The same system can also be applied for the quantitative determination of these compounds, but only for the more soluble ones. Some parameters (linearity, precision and accuracy) were validated.     

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%.