Validation of a rapid micellar electrokinetic capillary chromatographic method for the simultaneous determination of isoniazid and pyridoxine hydrochloride in pharmaceutical formulation

An efficient and reliable micellar electrokinetic capillary chromatography (MEKC) method has been developed for the simultaneous determination of isoniazid (ISO) and pyridoxine hydrochloride (PYR) in pharmaceutical formulations. A chemometric two level full factorial design approach was used to search for the optimum conditions of separation. Three parameters were selected for this study: the buffer pH, the buffer concentration and sodium dodecyl sulphate (SDS) concentrations. Resolution, peak symmetry and analysis time were established as response. The two analytes were separated within 6 min with the optimized conditions: 50 mM borate buffer, 25 mM SDS pH 7.8, 35 degrees C, at 50 mbar 4s injection and 30 kV by using a fused silica capillary (72 cm effective length, 50 microm i.d.). The detection wavelength was set to 205 nm. Meloxicam was used as internal standard. The method was validated with respect to stability, linearity range, limit of quantitation and detection, precision, accuracy, specificity and robustness. The detection limits of the method were 1.0 microg mL(-1) for ISO and 0.40 microg mL(-1) for PYR and the method was linear at least in the range of 3.0-100 microg mL(-1) for ISO and 1.0-100 microg mL(-1) for PYR with excellent correlation coefficients (0.9995 for ISO and 0.9998 for PYR). Relative standard deviations (R.S.D.s) of the described method ranged between 0.54 and 2.27% for intra-day precision and between 0.65 and 2.69% for inter-day precision. The developed method was applied to the tablet form of ISO and PYR-containing the pharmaceutical preparations and the data were compared with obtained from the standard addition method. No statistically significant difference was found.     

Capillary electrophoresis-based nanoscale assays for monitoring ecto-5'-nucleotidase activity and inhibition in preparations of recombinant enzyme and melanoma cell membranes

Powerful capillary electrophoresis (CE) methods were developed for monitoring the reaction of ecto-5'-nucleotidase (ecto-5'-NT, CD73), a (patho)biochemically important enzyme that hydrolyzes nucleoside-5'-monophosphates to the corresponding nucleosides. The enzymatic reaction was performed either before injection into the capillary (method A) or directly within the capillary (method B). In method A, separation of substrates and products was achieved within 8 min using an eCAP fused-silica capillary (20 cm effective length, 75 microM i.d., UV detection at 260 nm), 40 mM sodium borate buffer (pH 9.1), normal polarity, and a constant voltage of 15 kV. In method B, the sandwich technique was applied; substrate dissolved in reaction buffer (10mM Hepes [pH 7.4], 2mM MgCl2, and 1mM CaCl2) was hydrodynamically injected into a fused-silica capillary (30 cm, 75 microM i.d.), followed by enzyme (recombinant rat ecto-5'-NT) and subsequent injection of substrate solution. The reaction was initiated by the application of 1 kV voltage for 1 min. The voltage was turned off for 1 min and again turned on at a constant voltage of 15 kV to elute products (nucleosides) within 4 min using borate buffer (40 mM, pH 9.1). Thus, assays could be performed within 6 min, including enzymatic reaction, separation, and quantification of the formed nucleoside. The CE methods were used for measuring enzyme kinetics and for assaying inhibitors and substrates. In addition, the online assay was successfully applied to melanoma cell membrane preparations natively expressing the human ecto-5'-NT.     

Determination of three bile acids in artificial Calculus Bovis and its medicinal preparations by micellar electrokinetic capillary electrophoresis

A micellar electrokinetic capillary electrophoresis (MEKCE) method for the determination of cholic acid (CA), hyodeoxycholic acid (HDCA) and chenodeoxycholic acid (CDCA) in artificial Calculus Bovis and its four medicinal preparations is described. The buffer solution consisted of 40 mM disodic phosphate and 40 mM sodium dodecylsulfate (SDS) adjusted to pH 9.0. UV detection was set to 200 nm. Under optimum conditions, the analytes were baseline separated within 11min. The linear calibration range was 12.1-970 microgml(-1) for CA and 18.8-950 microgml(-1) for HDCA and CDCA, respectively. It was found that overall recoveries were within the range of 98-102%, and R.S.D.s were less than 5% for the analytes. This method, due to its convenience, high accuracy and good reproducibility can be employed in quality control of artificial Calculus Bovis and its medicinal preparations.     

Determination of prednisolone and the most important associated compounds in ocular and cutaneous pharmaceutical preparations by micellar electrokinetic capillary chromatography

A micellar electrokinetic capillary chromatographic method to separate prednisolone, prednisolone acetate, naphazoline, Zn-bacitracin, sulfacetamide and phenylefrine is described. The separation was carried out by using a fused-silica capillary (57 cmx75 micrometer I.D.) at 25 degrees C and 30 kV, using a 5 mM phosphate-5 mM borate buffer adjusted to pH 8.2, 50 mM sodium dodecyl sulfate (SDS) and 10% methanol-water (v/v) as background electrolyte. Under these conditions, the run time was 8 min and the limits of quantification were about 1.0 mg/l for every component. The method was applied to pharmaceutical preparations and the results provided recoveries close to 100% and the method gave good results when compared with a reference multivariate calibration spectrophotometric method.     

Separation and determination of three water-soluble compounds in Salvia miltiorrhiza Bunge and two related traditional medicinal preparations by flow injection-capillary electrophoresis

A sensitive and reproducible method was developed for the separation and determination of three water-soluble components-protocatechuic aldehyde (PAH), beta-(3,4-dihydroxyphenyl) lactic acid (DSS) and protocatechuic acid (PA) in medicine plant Salvia miltiorrhiza Bunge and two related traditional medicinal preparations using flow injection-capillary electrophoresis system. This analysis was carried out by using an unmodified fused-silica capillary (28.4 cm x 75 microm i.d.x 375 microm o.d., 25 cm effective separation length) and direct ultraviolet detection at 214 nm, 7.0 kV applied voltage. With boric acid (200 mM) adjusted to pH 7.8 as a background electrolyte. The separation was achieved in 9 min. The sample throughput rate could reach up to 15 h(-1). Calibration curves showed good linearity with correlation coefficients (r) more than 0.9986. The repeatability (defined as R.S.D.) were 0.20%, 0.46%, 0.47% with migration time evaluation and 0.62%, 3.66%, 1.50% with peak area evaluation for PAH, DSS and PA, respectively. The limits of detection (S/N=3) were 0.36 microg/mL, 0.84 microg/mL, and 0.73 microg/mL for PAH, DSS, and PA, respectively. The mean recoveries of PAH, DSS and PA were 103.2%, 98.1% and 100.5%, respectively. This method has been applied successfully to monitor these three components in Salvia miltiorrhiza Bunge and its two traditional medicinal preparations.     

Validation of non-aqueous capillary electrophoresis for simultaneous determination of four tricyclic antidepressants in pharmaceutical formulations and plasma samples

We present the validation of a method using non-aqueous capillary electrophoresis (NACE) for quantitative analysis of four tricyclic antidepressants (TADs) in pharmaceutical formulations and plasma. The method presented high resolution allowing the separation of the TADs in 4.3 min at optimized conditions: 50 mM ammonium acetate, 1 M acetic acid in acetonitrile, capillary with 48 cm in length, 40 cm to the detector, and voltage of 30 kV. Acceptable precision (relative standard deviation R.S.D.14.1% from plasma samples) and linearity were achieved using the internal standard (IS) method. The limits of quantification determined for plasma, after liquid-liquid extraction (LLE), were between 30 and 50 ng ml-1. These values are beyond the plasmatic therapeutic concentration. Our results were found comparable or better than those described in the literature for high performance liquid chromatography (HPLC)-based methods.     

Direct and fast capillary zone electrophoretic method for the determination of Gleevec and its main metabolite in human urine

A capillary zone electrophoretic (CZE) method was investigated for the determination of Gleevec and its main metabolite (N-demethylated piperazine derivative) in human urine using a fused-silica capillary (75 microm I.D.x60 cm total length, 10 cm effective length). The separation was performed with an hydrodynamic injection time of 10 s (0.5 p.s.i.) a voltage of -25 kV, a capillary temperature of 25 degrees C and a 100 mM phosphoric acid adjusted to pH 2 with the addition of triethanolamine. Under these conditions, the analysis takes about 5 min. A linear response over the 0.4-30.0 mg l(-1) concentration range was investigated for two compounds. A dilution of the sample was the only step necessary before the electrophoresis analysis. Detection limits of 0.1 mg l(-1) for Gleevec and its metabolite (S/N=3) were obtained. The developed method is easy, rapid and sensitive and has been applied to determine Gleevec and its main metabolite in clinical urine samples.     

Assays for angiotensin converting enzyme inhibitory activity

A colorimetric method and a capillary electrophoresis procedure were developed for quantifying histidyl-leucine and hippurate, respectively. The colorimetric method is sensitive (extinction coefficient = 7.5 mM(-1) cm(-1)) and reproducible (CV = 1.7%, n = 5), which is based on a selective chromogenic reaction for histidyl-leucine (lambda(max) = 390 nm) using o-phthalaldehyde. For samples containing unusually high levels of histidine and/or histidyl peptides, the separation-based approach is preferable. The capillary electrophoresis method makes use of an in-capillary microextraction technique; complicated samples can be measured in less than 4 min without pretreatment. Protocols using both methods to measure angiotensin converting enzyme inhibitory activity were proposed.     

Effects of potential PAR on shoot extension in juveniles of the main tree species in a Japanese temperate forest

We studied the relationship between potential photosynthetically active radiation (PAR), estimated from hemispherical photographs, and shoot extension rates of juveniles of 12 seral tree species. We distinguished between direct light site factor (DIR), diffuse light site factor (DIF), and gap light index (GLI). We used a log-linear model to relate growth to DIR, DIF and GLI. Potential PAR explained shoot growth rates significantly in 33 cases out of 36 (12 species× 3 PAR). DIF explained the shoot extension rates better than DIR and GLI for 10 of the 12 species. The mean values of maximum shoot extension rates of the tolerant, the intermediate and the intolerant species were 52.4 cm year^–1, 64.3 cm year^–1 and 87.7 cm year^–1, respectively. The maximum shoot extension rates of the tolerant and the intolerant species were recorded in about 50% DIF and more than 70% DIF, respectively. The minimum light level for seedling establishment of the intermediate and intolerant species was more than 20% DIF. We explained distribution characteristics and shoot extension of the species in relation to light in terms of shade tolerance. Predictions based on light-growth curves and maximum growth curves were similar to field observations made elsewhere, suggesting that these models may be useful to predict extension growth of juvenile trees in mixed species stands.     

Development and validation of a capillary electrophoresis method for the characterization of herpes simplex virus type 1 (HSV-1) thymidine kinase substrates and inhibitors

A fast, convenient capillary electrophoresis (CE) method was developed for monitoring the enzymatic reaction of herpes simplex virus type 1 thymidine kinase (HSV-1 TK). The reaction was performed in a test tube followed by quantitative analysis of the products. The optimized CE conditions were as follows: polyacrylamide-coated capillary (20 cm effective length x 50 microm), electrokinetic injection for 30s, 50 mM phosphate buffer at pH 6.5, constant current of -60 microA, UV detection at 210 nm, UMP or cAMP were used as internal standards. Phosphorylated products eluted within less than 7 min. The limits of detection were 0.36 microM for dTMP and 0.86 microM for GMP. The method was used to study enzyme kinetics, and to investigate alternative substrates and inhibitors.     

An assay for angiotensin-converting enzyme using capillary zone electrophoresis

A sensitive and rapid method was developed for angiotensin-converting enzyme (ACE) activity determination by capillary zone electrophoresis. Hippuryl-l-histidyl-l-leucine, a synthetic tripeptide, was used as the ACE-specific substrate. Capillary zone electrophoresis was employed to separate the products of the enzymatic reaction and the ACE activity was determined by quantification of hippuric acid, a result of the enzymatic reaction on the tripeptide. The capillary electrophoresis was performed in a 27 cm x 75 micrometer i.d. fused-silica capillary using 200 mM boric acid-borate buffer (pH 9.0) as a run buffer with an applied voltage of 8.1 kV at a capillary temperature of 23 degrees C. The electrophoresis was monitored at 228 nm. Each electrophoretic run requires only a nanoliter of the enzymatic reactant solution, at only 6 min, rendering a powerful tool for the ACE assay.     

Separation of cefoperazone enantiomers using beta-cyclodextrin as chiral additive by capillary zone electrophoresis

A capillary electrophoresis method was developed to separate the enantiomers of cefoperazone. Different cyclodextrins, including alpha-cyclodextrin (alpha-CD), beta-cyclodextrin (beta-CD), gamma-cyclodextrin (gamma-CD), 2-hydroxypropyl-beta-cyclodextrin (HP-beta-CD), and methyl-beta-cyclodextrin (Me-beta-CD), were tested as chiral additives in the running buffer. The effect of various parameters on enantioseparation such as concentration of NaH(2)PO(4), buffer pH, and CD concentration was also studied. The cefoperazone enantiomers were baseline separated under conditions of 0.04 mmol/L beta-CD, 75 mmol/L NaH(2)PO(4) buffer at pH 4.0. A fused silica capillary (40 cm effective length x 75 microm ID) was used. The applied voltage and capillary temperature were 20 kV and 25 degrees C, respectively. Under these conditions, linear calibration curves were obtained in the 5-500 microg/ml range using UV detection at 280 nm. The limit of detection for both isomers was 0.1 microg/ml. The method was used for the analysis of different pharmaceutical preparations (dose) and biological samples containing cefoperazone.     

Optimization and validation of analytical conditions for bovine serum albumin using capillary electrophoresis.

A quick and reproducible capillary electrophoresis method was optimized and validated for the assay of bovine serum albumin (BSA). The effects of various parameters such as pH of buffer, concentration of buffer, capillary dimensions, use of coated capillaries, and additives such as surfactants and protein solubilizers were evaluated. The capillary coatings or additives did not give any advantage in reducing the surface adsorption of BSA on the capillary walls. The optimized conditions include use of borate buffer, pH 8.5 having a concentration of 150 mM in a 27 cm capillary with an aperture window of 100 x 200 microns for detection. The optimized method for the detection of BSA was validated. The interday and intraday coefficient of variation was not greater than 7.59% at BSA concentrations of 25-1000 micrograms/ml. The method developed was reproducible and accurate.     

Capillary electrophoretic determination of methotrexate, leucovorin and folic acid in human urine

A simple, rapid and sensitive procedure using capillary zone electrophoresis (CZE) to measure methotrexate, folinic acid and folic acid in human urine has been developed and validated. Optimum separation of methotrexate, folinic acid and folic acid was obtained on a 60 cm x 75 microm capillary using a 15 mM phosphate buffer solution (pH 12.0), temperature and voltage 20 degrees C and 25 kV, respectively and hydrodynamic injection. Under these conditions the analysis takes approximately 9.0 min. Good results were obtained for different aspects including stability of the solutions, linearity, accuracy and precision. Before CZE determination, the urine samples were purified and enriched by means of a solid phase extraction step with a preconditioned C(18) cartridge and eluting the compound with a mixture 1:1 of methanol:water. A linear response over the urine concentration range 1.0-6.0 mgL(-1) for MTX and 0.5-6.0 mgL(-1) for folinic acid and folic acid was observed. Detection limits for the three compound in urine were 0.35 mgL(-1). CZE was shown to be a good method with regard to simplicity, satisfactory precision, and sensitivity.     

Fast analysis of pravastatin in production media

High throughput methods (high performance liquid chromatography and capillary electrophoresis) were developed to determine pravastatin in production media. The analyses were performed on particle column, monolithic column and silica capillary filled with borate buffer pH 9.3 containing 20 mM SDS. All three methods successfully separate pravastatin from interfering compounds (matrix, mevastatin and 6-epi pravastatin) and runtimes are shorter than 1 min. Solvent consumptions for methods using small particle column, monolith column and MECK were 132, 510 and 1.5 mL h(-1). The most sensitive was the method using particle column (LOD was about 10(-5) mg mL(-1)), followed by the system using monolith column (LOD was 2 x 10(-4) mg mL(-1)) and the MECK method (LOD was about 0.02 mg mL(-1)).     

Optimization of a free separation of 30 free amino acids and peptides by capillary zone electrophoresis with indirect absorbance detection: a potential for quantification in physiological fluids

This report describes a rapid, single-run procedure, based on the optimization of capillary electrophoresis (CE) and indirect absorbance detection capabilities, which was developed for the separation and quantification of 30 underivatized physiological amino acids and peptides, usually present in biological fluids. p-Aminosalicylic acid buffered with sodium carbonate at pH 10.2+/-0.1 was used as the running electrolyte. Electrophoresis, carried out in a capillary (87 cm x 75 microm) at 15 kV potential (normal polarity), separated the examined compounds within 30 min. Limits of detection ranged from 1.93 to 20.08 micromol/l (median 6.71 micromol/l). The method was linear within the 50-200 micromol/l concentration range (r ranged from 0.684 to 0.989, median r=0.934). Within run migration times precision was good (median C.V.=0.7%). Less favorable within run peak area precision (median C.V.=6.6%) was obtained. The analytical procedure presented was successfully tested for separation and quantification of amino acids in physiological fluids, such as plasma or supernatant of macrophage cultures. Sample preparations require only a protein precipitation and dilution step.     

Detection of d-Serine in rat brain by capillary electrophoresis with laser induced fluorescence detection

A capillary zone electrophoresis method with laser induced fluorescence detection for the chiral separation of highly fluorescent enantiomeric derivatives of d/l-Serine from 4-fluoro-7-nitro-2,1,3-benzoxadiazole (NBD-d/l-Serine) was developed and optimized. Enantiomeric separation of NBD-d/l-Serine was accomplished by using 40 mM hydroxypropyl-beta-cyclodextrin (HP-beta-CD) contained in 100 mM borate buffer, pH 10.0. A 70 cm (effective length of 50 cm) uncoated fused-silica capillary at a voltage of 15 kV was used for the separation. The optimized electrophoretic conditions were subsequently applied to the analysis of d-Serine in rat brain, and satisfactory analytical results with respect to accuracy were obtained. This assay showed acceptable precision, with linearity in the d-Serine concentration range of 0.2-20.0 microM. The limit of detection for d-Serine was 3.0 x 10(-7)M.     

Purification and characterization of two thermostable proteases from the thermophilic fungus Chaetomium thermophilum

Thermostable protease is very effective to improve the industrial processes in many fields. Two thermostable extracellular proteases from the culture supernatant of the thermophilic fungus Chaetomium thermophilum were purified to homogeneity by fractional ammonium sulfate precipitation, ion-exchange chromatography on DEAE-Sepharose, and PhenylSepharose hydrophobic interaction chromatography. By SDS-PAGE, the molecular mass of the two purified enzymes was estimated to be 33 kDa and 63 kDa, respectively. The two proteases were found to be inhibited by PMSF, but not by iodoacetamide and EDTA. The 33 kDa protease (PRO33) exhibited maximal activity at pH 10.0 and the 63 kDa protease (PRO63) at pH 5.0. The optimum temperature for the two proteases was 65 degrees C. The PRO33 had a K(m) value of 6.6 mM and a V(max) value of 10.31 micromol/l/min, and PRO63 17.6 mM and 9.08 micromol/l/min, with casein as substrate. They were thermostable at 60 degrees C. The protease activity of PRO33 and PRO63 remained at 67.2% and 17.31%, respectively, after incubation at 70 degrees C for 1 h. The thermal stability of the two enzymes was significantly enhanced by Ca2+. The residual activity of PRO33 and PRO63 at 70 degrees C after 60 min was approximately 88.59% and 39.2%, respectively, when kept in the buffer containing Ca2+. These properties make them applicable for many biotechnological purposes.     

Forskolin Stimulation of Cyclic AMP Accumulation in Rat Brain Cortex Slices Is Markedly Enhanced by Endogenous Adenosine

Stimulation of cyclic AMP (cAMP) accumulation in rat cortex slices by 1 microM forskolin (F) was markedly reduced (96%) by treatment with adenosine deaminase (ADA). The effect of ADA was progressively less at higher concentrations of F, but still inhibited the response by 50% at 100 microM F. ADA-mediated inhibition of the cAMP response to 1 microM F was completely reversed by 5 microM 2-chloroadenosine (CA), an ADA-resistant analogue. Stimulation by F (controls) and F plus CA (ADA treated) in cortex slices was significantly inhibited by 200 microM caffeine (CAF) and by 10 microM 8-phenyltheophylline. cAMP accumulation in ADA-treated cortex slices stimulated with CA at concentrations from 5 to 100 microM was markedly enhanced by 1 microM F. Neither ADA treatment nor 200 microM CAF significantly affected cAMP accumulation in slices stimulated by 1 microM vasoactive intestinal polypeptide or adenylate cyclase in membranes stimulated by 1 microM F. CAF (1 mM) did not significantly increase basal cAMP levels in cortex slices, whereas 1 mM 3-isobutyl-1-methylxanthine caused a significant 80% increase and 100 microM rolipram enhanced cAMP levels by 4.5-fold. F-stimulated cAMP accumulation (1 microM) in cortex slices was inhibited 98% by 1 mM CAF and 49% by 1 mM 3-isobutyl-1-methylxanthine, and was enhanced 2.5-fold by 100 microM rolipram. These data have been interpreted to indicate that the stimulation of cAMP accumulation in rat cortex slices by 1 microM F is predominantly due to synergistic interaction with endogenous adenosine and that the inhibition of this response by CAF is largely due to blockade of adenosine receptors.     

Determination of grepafloxacin and clinafloxacin by capillary zone electrophoresis

A simple and rapid capillary zone electrophoresis determination method with UV detection of grepafloxacin and clinafloxacin has been developed. The separation was performed in 35 mM borate-35 mM phosphate buffer solution (pH 8.6), containing 6% (v/v) of acetonitrile. Analyses were realised using fused-silica capillaries (57 cm length x 75 microm I.D.) and the operating conditions were: 15 kV applied voltage, 30 degrees C and detection at 279 nm. Piromidic acid was used as an internal standard. The linear concentration range of application was 1.0-120.0 microg ml(-1) for both compounds, with a detection limit of 0.2 microg ml(-1) for grepafloxacin and 0.3 microg ml(-1) for clinafloxacin. The analysis yielded good reproducibility (RSD between 3.37 and 1.74%). It was applied to the determination of grepafloxacin and clinafloxacin in human and rat urine samples. The method was validated using HPLC as a reference method. Recovery levels were between 94.5 and 103%.