Quantification of ephedrines in urine by column-switching high-performance liquid chromatography

A method for the quantification of five congener ephedrines in urine samples without sample preparation was developed. The analytes were trapped on a C18 precolumn and separated on a C18 BDS analytical column. Baseline separation was achieved for all analytes. The method meets the requirements of the International Olympic Committee (IOC) medical commission regarding cut-off limits for positive doping cases with ephedrines.     

Use of large particles support for fast analysis of methadone and its primary metabolite in human plasma by liquid chromatography-mass spectrometry

A bioanalytical method was developed for the quantitation of methadone (MTD) and its primary metabolite, (EDDP) in plasma. The extraction step was performed within a capillary column packed with large particles (35x0.3 mm I.D.; d(p) 30 micrometer) at high flow-rate conditions (450 microliter/min). The separation was performed on a microbore analytical column (55x2 mm I.D.; d(p) 3 micrometer) coupled to a mass spectrometer (MS). This procedure was based on a column-switching unit. Analytes of interest were retained on the precolumn by hydrophobic interactions and backflushed from the precolumn to the analytical column. The detection was carried out with a MS single quadrupole equipped with an electrospray interface. The total analysis time was 6 min. The limits of quantification were evaluated at 10 and 25 ng/ml for MTD and EDDP, respectively. At this level, good accuracies were obtained for both analytes with repeatability values less than 18%.     

Influence of various biological matrices (plasma, blood microdialysate) on chromatographic performance in the determination of β-blockers using an alkyl-diol silica precolumn for sample clean-up

A HPLC column-switching system with LiChrospher RP-8 ADS precolumn was applied for the determination of beta-blockers (atenolol, pindolol, propranolol) in human plasma. The influence of biological matrices on the changes of the chromatographic parameters such as retention time, peak symmetry, area and selectivity were investigated. After injection of 5 ml plasma a decrease of retention times of the analytes was observed of up to 25% and an increase of asymmetry factors of up to 5%. Peak areas and selectivities were not changed. The observed effect could indicate changes of chromatographic performance caused by contributions of the analytical column or the ADS precolumn. The experiments with microdialysis excluded the contribution of the analytical column. A detailed investigation of experiments have been discussed in this paper.     

Simultaneous determination of testosterone metabolites in liver microsomes using column-switching semi-microcolumn high-performance liquid chromatography

A sensitive and selective column-switching semi-microcolumn high-performance liquid chromatographic (HPLC) method has been developed for the simultaneous determination of testosterone and eight of its metabolites (6alpha-, 6beta-, 16alpha-, 16beta-, 7alpha-, 2alpha-, and 2beta-hydroxytestosterone, and androstenedione) in liver microsomes. After incubation for 10 min, testosterone and its metabolites were extracted from the microsomes with ethyl acetate, and the extract was evaporated to dryness. The residue was dissolved in the mobile phase and loaded onto the HPLC system. The analytes were first concentrated in a precolumn and subsequently transferred to the analytical column, where they were separated using linear gradient elution. A UV detector set at 254 nm was used to detect the analytes. This newly developed method clearly separated TES and the metabolites with high resolution and was found to be reproducible with intra- and interday variability of <10.7%. This method has been subsequently used to determine the testosterone hydroxylation activities catalyzed by 15 different recombinant CYP isozymes. The results confirmed the formation of stereoselectively hydroxylated metabolites by each CYP isozyme.     

Determination of 4-dimethylaminophenol concentrations in dog blood using LC-ESI/MS/MS combined with precolumn derivatization

A sensitive and reproducible LC-ESI/MS/MS method, which was combined with the precolumn dansyl chloride derivatization to enhance the signal intensity of analytes, was developed to determine blood 4-dimethylaminophenol (DMAP) concentrations. The linearity of the method was observed within the concentration range of 2-2000 ng/mL. The precision, accuracy, stability, recovery and matrix effect of the method were also investigated and found to meet the requirements for pharmacokinetic studies of the drug. By using this method, pharmacokinetic studies were conducted in dogs after i.m. and i.v. administrations. The results showed that DMAP could not only be absorbed into blood quickly after i.m., but also can be eliminated rapidly. Both i.m. and i.v. routes are appropriate for DMAP to be used in field first-aid. It has been proved that this LC-MS/MS combined with precolumn derivatization method can be used as a routine analytical method to provide enhanced measurements for blood DMAP concentrations. It is also useful for DMAP pharmacokinetic evaluation.     

Multidimensional on-line sample preparation of verapamil and its metabolites by a molecularly imprinted polymer coupled to liquid chromatography-mass spectrometry

A new molecularly imprinted polymer (MIP) material was synthesized selective for verapamil and utilized for on-line metabolic screening of this common calcium antagonist in biological samples. Since some metabolites of verapamil have also shown pharmacological properties, a selective and sensitive sample preparation approach that provides a metabolic profile in biologically relevant samples is important. The MIP material was coupled on-line to a restricted access material (RAM) precolumn. The multidimensional nature of this set-up removed large matrix interferents such as proteins from the sample, while the selectivity of the MIP enabled further cleanup of the smaller analytes. The selectivity and extraction efficiency of the MIP for verapamil and its metabolites was evaluated in various biological matrices, such as cell cultures and urine. The experimental set-up with the developed method enabled the direct injection of biological samples for the selective isolation, preconcentration, identification and analysis of verapamil and its phase I metabolites by LC-MS(n). This multidimensional approach provided much qualitative information about the metabolic profile of verapamil in various biological matrices. An analytical method was developed for the quantification of verapamil and gallopamil in urine, plasma and cell culture. Acceptable linearity (R(2)=0.9996, 0.9982 and 0.9762) with an average injection repeatability (n=3) of 10, 25 and 15% R.S.D. was determined for urine, plasma and cell culture, respectively. This is the first application of the procedure for the selective metabolic screening of verapamil in biological samples.     

Trace determination of urinary 3-hydroxybenzo[a]pyrene by automated column-switching high-performance liquid chromatography

3-Hydroxybenzo[a]pyrene (3-OHB[a]P), one of the metabolites of benzo[a]pyrene (B[a]P), has been determined in human urine using an automated column-switching procedure. The hydrolysed biological sample is centrifuged just prior to being injected into a reusable precolumn loop, which is packed with a preparative phase and coupled on-line to a liquid chromatographic (LC) system. A rapid pre-treatment of the hydrolysed sample, consisting of a concentration and a crude clean-up, is performed on the precolumn. The analytes are then non-selectively desorbed with the LC eluent and the sample is cleaned again in three successive purification columns using the direct transfer or “heart-cut” technique. The pre-treatment does not exceed 3 min. and the entire analytical purification and separation procedure takes less than 30 min. Average 3-OHB[a]P recovery reaches 95% in the 1–50 ng/l range of urine, and the detection limit is 0.1 ng/l urine for a 3 ml injection of hydrolysed urine. The developed method was compared with a more time-consuming off-line method to analyse urines of B[a]P gavaged rats; the statistical treatment indicates that both methods are in agreement. The method was applied to purify and concentrate the urine samples of workers exposed and apparently unexposed to polycyclic aromatic hydrocarbons (PAHs).     

Novel methylcellulose-immobilized cation-exchange precolumn for on-line enrichment of cationic drugs in plasma

We developed a novel methylcellulose-immobilized strong cation-exchange (MC-SCX) precolumn for direct analysis of drugs in plasma. MC-SCX consists of silica gel with a methylcellulose outer-surface and a 2-(4-sulfophenyl) ethyl phase inner-surface. The MC-SCX precolumn was evaluated by direct analysis using pyridoxine, atenolol and sulpiride spiked in plasma, using a column-switching HPLC system. Each drug was retained and enriched on MC-SCX using an acidic mobile phase, which resulted in good linearity, sufficient reproducibility, intra- and inter day precision, and accuracy in analytical ion-pair LC with trifluoroacetic acid. The analytical methods for model drugs were applied to pharmacokinetics of atenolol and sulpiride in rats.     

Automated column-switching high-performance liquid chromatography method for the determination of 1-hydroxypyrene in human urine

An on-line sample treatment method to determine 1-hydroxypyrene (1-OHP), a metabolite of polycyclic aromatic hydrocarbons (PAHs), in human urine has been developed. The hydrolysed biological fluid was directly injected into the chromatographic system after only centrifugation. A miniature precolumn loop packed with a preparative phase and coupled on-line to a liquid chromatographic (LC) system was used for analyte enrichment. The analytes were non-selectively desorbed with the LC eluent and cleaned by means of a column-switching procedure comprising two purification columns and an analytical column. Pre-treatment and analysis were performed within 2 and 20 min, respectively. Average 1-OHP recovery reached 99% in the 1–25 μg/l range of urine, and the quantitation limit was 20 ng/l for 100 μl of injected sample. A comparison with a more time-consuming off-line method was performed by analysing 120 urine samples of PAH-exposed and expected unexposed workers; the statistical treatment indicated that both methods are in agreement.     

Direct plasma injection method for the analysis of tryptophan metabolites by high-performance liquid chromatography coupled with precolumn deproteinization

Reversed-phase HPLC method by direct plasma injection has been developed for the analysis of major tryptophan metabolites (both metabolites in kynurenine pathways and in indole pathways). Two columns were used: one was a short precolumn of protein-coated octadecylsilane (ODS) for deproteinization and also for trapping of tryptophan metabolites, and the other was an analytical column of the usual ODS. By a column-switching method, the metabolites trapped in the precolumn were allowed to be eluted through the analytical column. The recovery of the spiked metabolites in plasma by the present method was almost quantitative (98-102%) with good reproducibility (CV less than 3%, within-run), and the method is determined to be simple and reproducible for the analysis of total (free + protein-bound) tryptophan metabolites in plasma. The analysis of rabbit plasma showed several peaks corresponding to kynurenine, kynurenic acid, 5-hydroxyindole-3-acetic acid, indole-3-lactic acid, indole-3-acetic acid, indole-3-propionic acid, and 5-hydroxy-tryptamine in addition to tryptophan.     

Selective extraction of β-blockers from biological fluids by column-switching high-performance liquid chromatography using an internal-surface phenylboronic acid precolumn

A column-switching HPLC method using an internal-surface phenylboronic acid precolumn for the selective extraction of β-blockers from biological fluids has been developed. Filtered urine and plasma samples (50 μl) were injected onto the precolumn equilibrated with methanol-0.05 M disodium hydrogenphosphate (5:95, v/v). After the precolumn had been washed breifly, the selectively retained β-blockers were eluted with methol-0.05 M phosphate buffer (pH 2.0) and transferred to a reversed-phase analytical column, on which they were then separated. Even after exposure to at least 160 injections of non-treated urine and plasma samples, the retention efficiency of the precolumn was maintained with no increase in back pressure. Quantitative recoveries and good reproducibility were demonstrated with pindolol.     

Bidimensional reversed-phase high-pressure liquid chromatography analysis of cultured cell neuropeptides: application to atrial natriuretic factor

We report here a one-step procedure for extraction and analysis of neuropeptides in chromaffin cell culture media and acid extracts using reversed-phase HPLC. The bidimensional HPLC system consists of a precolumn connected to a six-port switching valve which is on-line with an analytical column. The direct injection of the biological samples onto the precolumn previously equilibrated with 15% acetonitrile allows the elimination of interfering substances. The samples purified on the precolumn can then be eluted onto the analytical column via the switching valve for neuropeptide separation. This trace-enrichment system allows a minimum of sample handling, both saving time and reducing possibilities of loss and contamination. This method has been applied to monitor the precursor and mature forms of atrial natriuretic factor from chromaffin cell secretion media and cell content extracts. The recovery of atrial natriuretic factor is in the range of 80-100%. This procedure could be applied to the study of the precursor-product relationship of any neuropeptide, e.g., from radiolabeled extracts of pulse-chase experiments performed on cultured chromaffin cells.     

Simple determination of mycophenolic acid in human serum by column-switching high-performance liquid chromatography

A column-switching high-performance liquid chromatographic analysis was established to monitor the serum concentration of mycophenolic acid, the active metabolite from mycophenolate mofetil administered for the prophylaxis of acute organ rejection in renal transplantation. The system consisted of two pumps for solvent delivery, a column-switching valve, a precolumn, and a reversed-phase analytical column. The present method enabled us to determine MPA by injecting serum samples directly into HPLC without any pretreatment. The mobile phases with different amounts of organic solvent were delivered to the precolumn and analytical column by separate lines, and samples were applied to the precolumn. The column switching valves were switched automatically following the processes for the elimination of protein and the drug analysis. The peak heights of MPA were linearly related to the concentrations (r=0.999) in the range of 0.1-20 micro g/ml, and the limit of quantification was 0.1 micro g/ml (S/N ratio=3). This method was accurate and reproducible on the basis of the results of recovery (94.0-98.0%) and small coefficient of variations of intra and inter-assay (less than 8.3%).     

Determination of 2-(2-nitro-4-trifluoromethylbenzoyl)-1,3-cyclohexanedione in plasma by direct injection into a coupled column liquid chromatographic system

The chemical substance 2-(2-nitro-4-trifluoromethylbenzoyl)-1,3-cyclohexanedione (NTBC) is in clinical use for the treatment of hereditary tyrosinemia type 1. In the present study, the plasma concentration of NTBC was determined by a coupled column liquid chromatographic method. A 20-μl volume of plasma was diluted with phosphate buffer, pH 2, and injected into a small precolumn (BioTrapAcid C₁₈) with a mobile phase containing sulfuric acid. The precolumn was based on the restricted access principle, i.e., retention of NTBC within the lipophilic pores, while polar and large endogenous compounds were eluted with the void volume. NTBC was transferred to the analytical column using a mobile phase with a high content of acetonitrile. The compound was monitored by UV detection at 278 nm. The standard curve was linear between 0.3 and 69 μM, and the between-day precision (RSD) was 3% (n=6 days) at 13.8 μM and 14% (n=6 days) at 0.3 μM NTBC in plasma. The quantitation limit was approximately 0.3 μM using 20 μl of plasma.     

Determination of amino acids in human plasma by liquid chromatography with postcolumn ninhydrin derivatization using a hydroxyapatite cartridge for precolumn deproteination

Amino acids in human plasma were determined by liquid chromatography with postcolumn ninhydrin derivatization using a hydroxyapatite cartridge for precolumn deproteination. S-Carboxymethyl-l-cysteine, d-phenylglycine and S-aminoethyl-l-cysteine were found to be suitable internal standards. The proposed method is simple, rapid (deproteination time less than 1 min) and reproducible [relative standard deviation below 3% except for low-level aspartic acid (n = 3)]. The average recovery of 25 amino acids was above 90%. The elution time of amino acids in human plasma was approximately 2 h. Protein binding of tryptophan was also determined by the proposed method. The analytical data for amino acids in human plasma deproteinated using the proposed and published methods (5-sulphosalicylic acid and ethanol) were compared.     

Automated high-performance liquid chromatographic method for determination of furosemide in dog plasma

An automated high-performance liquid chromatographic method for the determination of the diuretic drug furosemide has been established. Dog plasma was injected directly into a two-column system with a BSA—ODS (ODS column coated with bovine serum albumin) precolumn and a C₁₈ analytical column for the separation of furosemide. The two columns were automatically switched. Furosemide remained trapped on the precolumn while proteins were eluted to waste. After column switching, furosemide was washed onto the analytical column and analysed without interference. The greatest advantage of the method is its easy performance without manual sample preparation; it requires no extraction or deproteinization. The method allows determination of 0.1–10 μg/ml of furosemide with accuracy and precision comparable with previously reported values. The coefficients of variation obtained from replicate measurements of 1 μg/ml and 5 μg/ml samples were 1.65% and 2.40%, respectively. This method was used to measure the plasma levels of furosemide in beagle dogs to whom the drugs was administered, as a reference, in a toxicological study.     

Determination of octopamine in human plasma by capillary electrophoresis with optical fiber light-emitting diode-induced fluorescence detection

A new analytical method based on capillary electrophoresis (CE) separation and optical fiber light-emitting diode (LED)-induced fluorescence detection has been developed for the determination of octopamine. Naphthalene-2,3-dicarboxaldehyde (NDA) was used for precolumn derivatization of octopamine. The separation and determination of the derivative was performed using a laboratory-built CE system with an optical fiber LED-induced fluorescence detector. Optimal separation was obtained at 20 kV using a background electrolyte solution consisting of 25 mM sodium borate (pH 9.2). High sensitivity detection was achieved by the optical fiber LED-induced fluorescence detection using a purple LED as the excitation source. The limit of detection (signal/noise=3) for octopamine was 5.0 x 10(-9)M. A calibration curve ranging from 1.0 x 10(-8) to 5.0 x 10(-7)M was shown to be linear. Using this method, the levels of octopamine in human plasma from healthy donors were determined.     

Determination of urinary mercapturic acids of styrene in man by high-performance liquid chromatography with fluorescence detection

A method for the determination of urinary

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(M1) and

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(M2) in man was developed. Clean-up of urine samples was obtained by a chromatographic technique using a short reversed-phase precolumn; purified samples were then deacetylated with porcine acylase I for 16 h at 37°C and deproteinized by centrifugal ultrafiltration. Derivatization was performed with o-phthaldialdehyde and 2-mercaptoethanol and the fluorescent derivatives were separated on a reversed-phase analytical column with a gradient mobile phase consisting of 50 mM acetate buffer (pH 6.5) and methanol. The retention times of the diastereoisomers of M1 (M1-“S” and M1-“R”) were 52.8 and 73.7 min, respectively; M2 diastereoisomers eluted as a single peak at 70.5 min. The fluorescence detector was set at 330 nm (excitation) and 440 nm (emission). The detection limit (at a signal-to-noise ratio of three) was about 7 μg/l. The method was applied to 25 urine samples from workers exposed to styrene. A relationship was found between urinary mandelic and phenylglyoxylic acids and mercapturic acids specific for styrene. Urine samples from ten non-exposed subjects showed no detectable amounts of analytes.     

Development and validation of a new high-performance liquid chromatographic estimation method of meloxicam in biological samples

A simple, HPLC method was developed to estimate meloxicam (COX-2 inhibitor) using piroxicam as the internal standard. The mobile phase containing methanol, acetonitrile and an aqueous solution of diammonium hydrogenorthophosphate (50 mM) in the ratio of 4:1:5 was pumped at the rate 1 ml/min. Lichrocart RP-18 (125×4 mm) was used as an analytical column and the analytes were detected at 364 nm using a UV detector. Acidified plasma samples were extracted with chloroform, evaporated to dryness, reconstituted in the mobile phase and then a volume of 10 μl of the prepared sample was injected in the column. The retention time of meloxicam and piroxicam was found to be 2.7 and 1.9, respectively. This method showed an accuracy of 102.3% at 0.52 μg/ml and was capable of detecting a minimum concentration of 0.029 μg/ml meloxicam from biological samples. The analytical method was successfully utilized for estimating meloxicam in biological samples.     

Simultaneous determination of ascorbic acid, aminothiols, and methionine in biological matrices using ion-pairing RP-HPLC coupled with electrochemical detector

A novel highly sensitive ion-pairing reversed-phase high performance liquid-chromatography/electrochemical detection method for simultaneous determination of l-ascorbic acid, aminothiols, and methionine in biological matrices was developed, optimized, and validated. Reduced forms of the analytes were extracted from the sample matrices with 10% meta-phosphoric acid solution((aqueous)). To determine the total vitamin C, the total aminothiols, and the total methionine, samples were treated with tris(2-carboxyethyl)phosphine solution in 0.05% trifluoroacetic acid solution((aqueous)) subsequent to deproteination to reduce the oxidized forms of these compounds. Various analytes were separated on a C(18) (250 × 4.6 mm, 5 μm) analytical column using methanol-0.05% trifluoroacetic acid solution((aqueous)) (05/95, v/v), containing 0.1mM 1-octane sulphonic acid as the ion-pairing agent) as the isocratic mobile phase pumped at a flow rate of 1.5 mL min(-1) at room temperature. The column eluents were monitored at a voltage of 0.85 V. These analytes were efficiently resolved in less than 20 min using n-acetyl cysteine as the internal standard. The present method was specific for the analysis of these analytes and demonstrated acceptable values for linearity (r(2)>0.999 in the range of 0.2-10,000 ng mL(-1) for all the analytes), recovery (>96%), precision (%RSD ≤ 2.0), and sensitivity (on column limit of detection: 250-400 fg and limit of quantification: 0.8-1.25 pg), indicating that the proposed method could be efficiently used for determination of these analytes in the context of clinical research.