Improvement of ethyl glucuronide determination in human urine and serum samples by solid-phase extraction

An improved method for the determination of ethyl glucuronide (EtG) in human serum and urine was developed using solid-phase extraction (SPE) and gas chromatography (GC) with mass spectrometric detection (MS). EtG was isolated from serum and urine using aminopropyl SPE columns after deproteination with perchloric acid and hydrochloric acid, respectively. The chromatographic separation was performed on a DB 1701 fused-silica column. At a signal-to-noise ratio of 3:1, a quantification limit of 173 and 560 ng/ml and a detection limit of 37 and 168 ng/ml could be determined for serum and urine, respectively. This indicates high specificity and sensitivity of the described method. The mean absolute recovery was 85%, while intra- and inter-day precision of the assay were all less than 7.5%. The linearity of the calibration curves was satisfying as indicated by correlation coefficients of >0.993. The presented method provides the basis for determination and identification of EtG in human serum and urine samples in a low-concentration range for monitoring alcohol consumption during treatment for alcohol dependence and comorbid alcohol abuse of psychotherapy patients.     

Determination of cobalt in urine by gas chromatography—mass spectrometry employing nickel as an internal standard

A gas chromatographic—mass spectrometric method for the determination of cobalt in biological materials employing stable enriched ⁶²Ni as an internal standard and using lithium bis(trifluoroethyl)dithiocarbamate as a chelating agent is described. The method involves the addition of a known amount (1 μg) of ⁶²Ni to the sample, the formation of the chelate and the determination by selected-ion monitoring of the m/z ratio, which corresponds to . No appreciable memory effect was observed, and an acceptable dynamic range of 100 was found. There was good agreement between the cobalt concentration values determined by gas chromatography—mass spectrometry and electrothermal atomic absorption spectrometry. The present method has high sensitivity and can be used for the quantitation of cobalt at concentrations as low as 1 μg/l. The use of enriched ⁶²Ni circumvents the problem caused by endogenous nickel and simultaneously provides data on the nickel concentration in the biological sample without any additional experimental effort.     

Measurement of the novel decapeptide cetrorelix in human plasma and urine by liquid chromatography–electrospray ionization mass spectrometry

A sensitive LC–MS quantitation method of cetrorelix, a novel gonadotropin releasing hormone (GnRH) antagonist, was developed. Plasma and urine samples to which brominated cetrorelix was added as an internal standard (I.S.) were purified by solid-phase extraction with C₈ cartridges. The chromatographic separation was achieved on a C₁₈ reversed-phase column using acetonitrile–water–trifluoroacetic acid (35:65:0.1, v/v/v) as mobile phase. The mass spectrometric analysis was performed by electrospray ionization mode with negative ion detection, and the adduct ions of cetrorelix and I.S. with trifluoroacetic acid were monitored in extremely high mass region of m/z 1543 and 1700, respectively. The lower limit of quantitation was 1.00 ng per 1 ml of plasma and 2.09 ng per 2 ml of urine, and the present method was applied to the analysis of pharmacokinetics of cetrorelix in human during phase 1 clinical trial.     

Determination of selenium stable isotopes by gas chromatography–mass spectrometry with negative chemical ionisation

A gas chromatography mass spectrometric method using negative chemical ionisation was developed for the determination of stable isotopes of selenium for evaluation of selenium absorption and retention from foods in humans. The method involves an acid digestion to convert all selenium into selenite, which subsequently reacts with 4-nitro-o-phenylene-diamine to form a volatile piazselenole. The piazselenole, after extraction into an organic solvent, was analysed for its isotopic selenium composition by gas chromatography mass spectrometry. Negative chemical ionisation is reported for the first time for the determination of selenium stable isotopes and its analytical characteristics were compared to those of electron impact mass spectrometric ionisation, classically used for the determination of selenium. The negative chemical ionisation technique allowed accurate determination of total selenium by isotope dilution and of selenium isotope ratios in biological samples. The repeatability for total selenium and for stable isotope ratios was good (R.S.D.≤10%) within the range of 50 to 250 ng selenium. The detection limit for the investigated selenium isotopes was approximately 1 pg (signal to noise ratio at 3). The applicability of the developed stable isotope methodology was demonstrated by the determination of the selenium absorption and retention from foods in a pilot study using one human adult.     

Application of negative-ion chemical ionization isotope dilution gas chromatography—mass spectrometry to single-dose bioavailability studies of mefloquine

An electron-capture negative-ion chemical ionization gas chromatographic—mass spectrometric assay for mefloquine, an antimalarial drug used in the treatment of drug-resistant Plasmodium falciparum malaria, is described. The method, developed in support of bioavailability studies involving the co-administration of different tableted formulations of the drug and an aqueous solution of its ¹³C₃-labeled analog, enables quantification of both dosage forms. Quantitative analysis of extracted plasma samples was performed on the O-tert.-butyldimethylsilyl (t-BDMS) derivative of the drug by selected-ion monitoring, using a VG Trio 2000 quadrupole mass spectrometer and monitoring the [M — t-BDMSOH]^−√ ions of the analytes. The method, incorporating [²H₆]mefloquine as an internal standard, demonstrated good accuracy and precision over the 1–200 ng ml⁻¹ range, with correlation coefficients greater than 0.990 for all standard curves and a detection level of 50 fg on-column. Replicate analysis of plasma samples over a 90-day period exhibited a mean intra-day and inter-day variation of less than 4.5% and 5.5%, respectively. The high stability and sensitivity of the assay, combined with the inherent selectivity of mass spectrometric detection, make the method well-suited for such studies.     

Valproic acid analysis in saliva and serum using selected ion monitoring (electron ionization) of the tert.-butyldimethylsilyl derivatives

A highly sensitive ion monitoring method for the determination of valproic acid in saliva and in serum has been developed based on the gas chromatographic—mass spectrometric analysis of the tert.-butyldimethylsilyl derivatives. Extraction methods are simple and the techniques for derivatization are rapid and convenient. Selected ion monitoring was carried out using electron ionization conditions and a common ion m/z 201 (M⁺ − 57) present in valproic acid and the internal standard octanoic acid. The lower limit of sensitivity that has acceptable precision for assay purposes is 0.1 mg/l based on a 200-μl sample size. The ion monitoring method (derivatized) was compared to a gas chromatographic method (underivatized) for serum valproate assays and found to be essentially identical.The assay methodology was used in a kinetic study of valproic acid in two normal subjects. Saliva levels of drug were found to give reasonably good correlations with serum total and with serum free concentrations of drug in both individuals.     

Determination of free salsolinol concentrations in human urine using gas chromatography—mass spectrometry

The urine concentrations of free salsolinol were determined in six healthy volunteers, using a gas chromatographic—mass spectrometric method with electron-capture negative-ion chemical ionization after derivatization with pentafluoropropionyl anhydride. The sensitivity of this method allows the quantification of salsolinol concentrations of 0.55 pmol/ml. The synthesis of [²H₄]salsolinol from dopamine and [²H₄]acetaldehyde via a Pictet—Spengler condensation is described; [²H₄]salsolinol was used as the internal standard for salsolinol quantification. The urine concentrations of free salsolinol ranged from ca. 1 to 6 pmol/ml.     

A comparison of thermospray and direct liquid introduction high-performance liquid chromatography/mass spectrometry for the analysis of candidate antimalarials

The analysis of antimalarials by high-performance liquid chromatography (HPLC)/mass spectrometry demonstrates a new dimension in specificity along with increased sensitivity compared to conventional HPLC detection methods. Both direct liquid introduction and thermospray HPLC/mass spectrometry interfaces provided molecular weight information as well as characteristic fragment ions for antimalarials not normally amenable to direct probe or gas chromatographic/mass spectrometric techniques. The direct liquid introduction interface, which incorporated a 1/100 split, showed a detection limit of 30 ng using selected ion monitoring. The thermospray technique showed less than 1 ng detection limits using selected ion monitoring.     

Use of a carrier for quantitation of a new dihydropyridine calcium antagonist (OPC-13340) in human plasma by highly sensitive gas chromatography with negative-ion chemical ionization mass spectrometry

A sensitive gas chromatographic—mass spectrometric method for the quantitation of (±)-methyl 3-phenyl-2(E)-propenyl 1,4-dihydro-2,6-dimethyl-4-(3-nitrophenyl)-3,5-pyridinedicarboxylate (OPC-13340, I), a new dihydropyridine calcium antagonist with a potent and long-acting antihypertensive and antianginal effect, was developed in order to elucidate its pharmacokinetics. Dihydropyridine calcium antagonists have been usually quantified by this technique in the negative-ion chemical ionization mode. However, direct application of this method to quantify trace amounts of I in biological fluids completely failed, owing to its adsorption on the column and oxidation of its dihydropyridine ring. Human plasma containing I and (±)-[²H₅]methyl 3-phenyl-2(E)-propenyl 1,4-dihydro-2,6-dimethyl-4-(3-nitrophenyl)-3,5-pyridinedicarboxylate (II), the internal standard, was extracted with n-hexane—diethyl ether under weakly basic conditions (pH 8). In order to prevent adsorption of the compounds on the column, (±)-[²H₃]ethyl 3-phenyl-2(E)-propenyl 1,4-dihydro-2,6-dimethyl-4-(3-nitrophenyl)-3,5-pyridinedicarboxylate (III), an analogue of I, was added to the extracts as a carrier. In addition, this carrier was also effective in preventing the oxidation of I. The quantitation limit of I in human plasma by this method was found to be less than 30 pg/ml. Thus, the method is sufficiently sensitive to study the pharmacokinetics of I in humans.     

Direct analysis of nitrocatechol-type glucuronides in urine by capillary electrophoresis–electrospray ionisation mass spectrometry and tandem mass spectrometry

Direct, quantitative capillary electrophoresis–electrospray ionisation mass spectrometric (CE–ESI-MS) and tandem mass spectrometric (CE–ESI-MS–MS) methods are described for the quantitation of 3-O-glucuronides of E- and Z-entacapone isomers (EEG and EZG) and tolcapone (TG) in urine. 3-O-Glucuronide of nitecapone was used as internal standard. Good separation of glucuronides was achieved with 20 mM ammonium acetate as separation solution at pH 6.84. Stacking was used to increase the sensitivity of the method by introducing samples in 5 mM ammonium acetate. CE–ESI-MS and CE–ESI-MS–MS methods are linear with correlation coefficients better than 0.9983 and 0.9982, and repeatable with relative standard deviations below 9 and 14%, respectively. The limit of detection (LOD) in CE–ESI-MS at signal-to-noise ratio 3 is 100 ng/ml for EEG and EZG and 250 ng/ml for TG. The CE–ESI-MS–MS method was the more sensitive; LOD was 7 ng/ml for all compounds, without any concentration of the sample.     

Validated gas chromatographic–mass spectrometric assay for determination of the antifreezes ethylene glycol and diethylene glycol in human plasma after microwave-assisted pivalylation

A gas chromatographic–mass spectrometric assay is described for identification and quantification of the antifreezes ethylene glycol (EG) and diethylene glycol (DEG) in plasma for early diagnosis of a glycol intoxication. After addition of 1,3-propanediol as internal standard, the plasma sample was deproteinized by acetone and an aliquot of the supernatant was evaporated followed by microwave-assisted pivalylation. After gas chromatographic separation, the glycols were first identified by comparison of the full mass spectra with reference spectra and then quantified. The quantification has been validated according to the criteria established by the Journal of Chromatography B. The assay was found to be selective. The calibration curves for EG and DEG were linear from 0.1 g/l to 1.0 g/l. The limit of detection for EG and DEG was 0.01 g/l and the limit of quantification for both was 0.1 g/l. The absolute recoveries were 50 and 65% for the low quality control samples and 51 and 73% for the high quality control samples of EG and DEG, respectively. Intra- and inter-day accuracy and precision were inside the required limits. The glycols in frozen plasma samples were stable for more than 6 months. The method was successfully applied to several authentic plasma samples from patients intoxicated with glycols. It has also been suitable for analysis of EG and DEG in urine.     

Application of a sensitive liquid chromatographic/tandem mass spectrometric method to a pharmacokinetic study of allylestrenol in healthy Chinese female volunteers

A sensitive, specific and rapid liquid chromatographic/tandem mass spectrometric (LC/MS/MS) assay for the determination of allylestrenol in human plasma was established. Plasma samples were extracted by tert-butyl ether and separated by LC/MS/MS using a Phenomenex Curosil-PFP column (250 mm x 4.6 mm ID, dp 5 microm) with a mobile phase of methanol-water (95:5, v/v). The analytes were monitored with atmospheric pressure chemical ionization (APCI) by selected reaction monitoring (SRM) mode. The linear calibration curves covered a concentration range of 0.04-20.0 ng/mL with lower limit of quantification (LLOQ) at 0.04 ng/mL. The mean extraction recovery of allylestrenol was greater than 81.8%. The intra- and inter-day precisions were less than 1.3% and 3.1% respectively, determined from quality control (QC) samples of three representative concentrations. The method has been successfully applied to determining the plasma concentration of allylestrenol and a clinical pharmacokinetics study in healthy Chinese female volunteers.     

Determination of clenbuterol in urine as its cyclic boronate derivative by gas chromatography—mass spectrometry

A rapid and reliable gas chromatographic—mass spectrometric method for the determination of clenbuterol in urine is described. Penbutolol was used as internal standard. Four derivatization procedures have been tested, of which 1-butaneboronic acid gave the best results. The method includes extraction of the alkalinized urine (3 ml) with tert.-butyl methyl ether—n-butanol (9:1), derivatization with 1-butaneboronic acid (15 min at room temperature), and analysis in the selected-ion monitoring mode of the derivatives of clenbuterol at m/z 243, 327 and 342 and of penbutolol at m/z 342 and 357. The detection limit is 0.5 ng/ml and the recovery better than 90%.     

Gas chromatographic—mass spectrometric determination of tiopronin in human blood using acrylic acid esters as a derivatization reagent for the thiol group

A gas chromatographic—mass spectrometric method for determining tiopronin, which has a thiol group, in human blood has been described. To prevent the oxidative degradation of tiopronin in the blood, its thiol group was immediately protected by treatment with isobutyl acrylate, which reacted readily with tiopronin in a 0.1 M Na₂HPO₄ solution (pH 9.1). The reaction was quantitative within 30 min. The blood sample was deproteinized and purified by a combination of liquid—liquid extraction and solid-phase extraction. Finally, the carboxyl moiety of the ester adduct was derivatized to the pentafluorobenzyl ester. The derivatives of tiopronin and the internal standard were analysed with gas chromatography—mass spectrometry. The precision of the method was satisfactory, and the calibration curve had good linearity in the concentration range investigated. The limit of determination of tiopronin in blood was estimated to be ca. 1 ng/ml.     

Gas chromatographic—mass spectrometric procedure for the quantitation of chlorpromazine in plasma and its comparison with a new high-performance liquid chromatographic assay with electrochemical detection

A gas chromatographic—mass spectrometric assay using selected ion monitoring is compared with a high-performance liquid chromatographic assay using an electrochemical detector for single-dose studies of the psychotherapeutic phenothiazine drug chlorpromazine. Measurements were made after extraction of chlorpromazine and the internal standard, prochlorperazine, from basified plasma with an isopropanol—pentane solvent mixture. Following evaporation of the organic solvents the residue was reconstituted in a small volume of methanol and subjected to gas chromatographic—mass spectrometric selected ion detection. The residual sample was then evaporated and made up in a larger volume of acetonitrile and analyzed by high-performance liquid chromatography using an electrochemical detector. These specific methods display excellent correlation for plasma concentration determinations in the range of 0.25–10 ng ml⁻¹ and will allow for the study of the pharmacokinetics of chlorpromazine following single low doses of the drug.     

Determination of flumazenil in plasma by gas chromatography-negative ion chemical ionization mass spectrometry

A gas chromatographic-negative ion chemical ionization mass spectrometric (GC-NCI-MS) method for the determination of flumazenil in plasma is described. The GC of flumazenil (M_r 303) is considered to be difficult as it is readily adsorbed in the GC column. Therefore, preconditioning the GC column with reconstituted extract from plasma and Silyl-8 was required to cover the active sites on the column. Monitoring the maximum mass peak (m/z 275) of the flumazenil resulted in a tenfold enhancement of sensitivity and signal-to-noise ratio (concentration = 1 ng/ml). Isotopically labeled flumazenil-d₃ (M_r 306, m/z 278) was used as the internal standard. The detection limit for flumazenil was found to be 0.1 ng/ml with an injection volume of 2 μl. The signal-to-noise ratio was about 10. The routine quantification limit was set at 2 ng/ml for dog plasma and 1 ng/ml for human plasma. The sample volumes in both instances were 1 ml.     

Gas chromatographic–mass spectrometric assay for rocuronium with potential for quantifying its metabolite, 17-desacetylrocuronium, in human plasma

A rapid, sensitive and selective method has been developed for the quantification of plasma concentrations of neuromuscular blocking drug, rocuronium, using gas chromatography with mass spectrometric detection. 3-Desacetylvecuronium served as the internal standard. The method involved iodide ion pair formation and a single-step liquid–liquid extraction with dicholoromethane. This method also permits simultaneous determination of its putative metabolite, 17-desacetylrocuronium, although the high detection limit for the metabolite limits the practical application of this method in pharmacokinetic study of the metabolite. The extraction efficiency was 75% for rocuronium and 50% for 17-desacetylrocuronium. The limit of quantification was 26 ng/ml for rocuronium and 870 ng/ml for its metabolite. The assay was used successfully in a patient undergoing liver transplantation and receiving rocuronium as a constant rate infusion and in a patient undergoing general elective surgery receiving the drug as an intravenous bolus. This assay is a time-saving alternative to published gas or liquid chromatographic methods for assaying rocuronium.     

Determination of eperisone in human plasma by gas chromatography—mass spectrometry

A gas chromatographic—mass spectrometric method was developed to determine eperisone hydrochloride, 4′-ethyl-2-methyl-3-piperidinopropiophenone hydrochloride, in human plasma over the concentration range 0.2–40 ng/ml. Excellent sensitivity was achieved by selection of a favorable fragment ion, m/z 98, of eperisone and reduction of heat decomposition of eperisone by using a splitless injector and a shortened capillary column. The method described here allows the determination of plasma concentrations as low as 0.2 ng/ml, the concentration attained 6 h after a single oral administration of 50 mg. At eperisone hydrochloride concentrations higher than 0.5 ng/ml, the mean inter-day variation of accuracy of the assay was less than 12%.     

1‐Acetyl‐3‐[(3R)‐hydroxyfatty acyl]glycerols: Lipid Compounds from Euphrasia rostkoviana Hayne and E. tetraquetra (Bréb.) Arrond.

Five homologous acetylated acylglycerols of 3‐hydroxyfatty acids (chain lengths C(14) – C(18)), named euphrasianins A – E, were characterized for the first time in Euphrasia rostkoviana Hayne (Orobanchaceae) by gas chromatography/mass spectrometry (GC/MS) and high‐performance liquid chromatography/atmospheric pressure chemical ionization‐mass spectrometry (HPLC/APCI‐MSⁿ). In addition to mass spectrometric data, structures of euphrasianins were verified via a three‐step total synthesis of one representative homologue (euphrasianin A). The structure of the latter was confirmed by 1D‐ and 2D‐NMR experiments as well as high‐resolution electrospray ionization‐mass spectrometry (HR‐ESI‐MS). The absolute configuration of the 3‐hydroxyfatty acid moiety at C(3) was found to be R in the natural euphrasianins, which was determined by alkaline hydrolysis and methylation of a purified fraction, followed by chiral GC analysis. Furthermore, in extracts of Euphrasia tetraquetra (Bréb .) Arrond . euphrasianins C and E were detected exclusively, indicating that this subclass of lipid constituents is possibly valuable for fingerprinting methods.     

LC-ESI-MS determination and pharmacokinetics of adrafinil in rats

A highly sensitive and specific liquid chromatography/tandem mass spectrometric (LC-MS/MS) method for investigating the pharmacokinetics of adrafinil in rats was developed. Rat serum pretreated by solid-phase extraction (SPE) was analyzed by LC-MS/MS with an electrospray ionization (ESI) interface. The mobile phase consisted of acetonitrile:water:acetic acid (35:65:0.1, v/v/v) in an isocratic elution mode pumped at 1.0ml/min. The analytical column (250mmx4.6mm i.d.) was packed with Kromasil C(18) material (5.0mum). The standard curve was linear from 16.5 to 5000ng/ml. The assay was specific, accurate (R.S.D.<2.6%), precise and reproducible (within- and between-day precisions R.S.D. <7.0% and <9.0%, respectively). Adrafinil in rat serum was stable over three freeze-thaw cycles at ambient temperature for 6h. The method had a lower limit of quantitation of 16.5ng/ml, which offered high sensitivity for the determination of adrafinil in serum. The method was successfully applied to pharmacokinetic studies of adrafinil after an oral administration to rats.