Determination of lesinurad in rat plasma by a UHPLC–MS/MS assay

Lesinurad is an oral inhibitor of urate-anion exchanger transporter 1 and has been approved by the US Food and Drug Administration for combination therapy with a xanthine oxidase inhibitor for the treatment of hyperuricemia associated with refractory gout. In the present study, a sensitive and specific ultra high-performance liquid chromatography with tandem mass spectrometry assay was established and verified for the determination of lesinurad in rat plasma and was described in details for the first time. Chromatographic separation of lesinurad and diazepam (internal standard, IS) was performed on a Rapid Resolution HT C18 column (3.0 × 100 mm, 1.8 µm) using methanol–water (70:30, v/v) as the mobile phase at a flow rate of 0.3 mL/min. Lesinurad and IS were extracted from plasma by liquid–liquid extraction using ethyl acetate. The mass spectrometric detection was carried out using an electrospray ionization source in positive mode. Multiple reaction monitoring was used for quantification of the precursor to product ion at m/z 405.6 → 220.9 for lesinurad and m/z 285.1 → 192.8 for IS. The assay was well validated for selectivity, accuracy, precision, recovery, linearity, matrix effects, and stability. The verified method was applied to obtain the pharmacokinetic parameters and concentration–time profiles for lesinurad after oral/intravenous administration in rats. The study might provide an important reference and a necessary complement for the qualitative and quantitative evaluation of lesinurad.     

Analysis of tizoxanide,active metabolite of nitazoxanide,in rat brain tissue and plasma by UHPLC–MS/MS

Tizoxanide, the active metabolite of nitazoxanide, has recently been reported as an effective agent for the treatment of glioma. As there had been no report about the analysis of tizoxanide in brain tissue, we established extraction and UHPLC–MS/MS methods to quantify tizoxanide in rat brain and plasma to evaluate the brain-to-plasma ratio of tizoxanide. The biological samples were mainly prepared by acetonitrile and the separation was performed on a Waters XBridge® BEH C₁₈ column. The mobile phase was composed of water mixed with 10 mm ammonium formate (pH 3.0) and acetonitrile according a gradient volume. Tizoxanide and topiramate (internal standard) were monitored utilizing negative electron spray ionization in multiple reaction monitoring mode. The methods were validated to be precise and accurate within the dynamic range of 5–1000 ng/mL and 0.2–50 ng/g for plasma and brain tissue samples, respectively. The lower limit of quantitation of the method was 0.2 ng/g, which was far more sensitive than all existing methods to quantify tizoxanide in biological samples. Application performed on rats exhibited that the brain-to-plasma ratio of tizoxanide ranged from 3.16 to 26.86% in 1 h after administration of 10 mg/kg nitazoxanide.     

Pharmacokinetic and bioavailability study of kurarinone in dog plasma by UHPLC–MS/MS

Kurarinone, a natural prenylated flavonone isolated from Sophora flavescens, has been exhibited various activities. This study aimed to establish a simple and sensitive ultra-high performance liquid chromatography–tandem mass spectrometry (UHPLC–MS/MS) method for determining kurarinone in dog plasma. Acetonitrile-mediated precipitation was applied for sample pretreatment. Chromatographic separation was achieved on a Waters ACQUITY HSS T3 (100 × 2.1 mm, i. d., 1.8 μm) column with gradient elution using water containing 0.1% formic acid and acetonitrile as mobile phase. Quantitation was performed using an electrospray ionization source in negative multiple reaction monitoring mode. The linearity of this method was over the concentration range 0.1–500 ng/mL with the lowest limit of quantification (LLOQ) of 0.1 ng/mL. The intra- and inter-day precision was less than 10.51% and the accuracy ranged from 94.85% to 97.72%, respectively. The extraction recovery of kurarinone in dog plasma was more than 82.37% and no significant matrix effect was observed. The analyte was stable under tested storage conditions. The validated method was further successfully applied to a preclinical pharmacokinetic study of kurarinone in dog after a single intravenous (2 mg/kg) and oral (20 mg/kg) administration. The results revealed that kurarinone was rapidly absorbed into plasma with good bioavailability (38.19%) and low clearance.     

Quantification of phytochelatins in plants by reversed-phase HPLC–ESI–MS–MS

An on-line HPLC–ESI–MS–MS method has been developed for determination of glutathione and phytochelatins (PC) in plant tissues. For sample pretreatment, dithiothreitol (DTT) must be added at the very beginning, as an anti-oxidant. Optimization of instrumental conditions i.e. composition of HPLC mobile phase, ionization efficiency of the electrospray interface, and MS–MS detection in the multiple ion-monitoring mode, are the central aspects of this work. A polystyrene-packed column was found to be superior to a standard silica-packed reversed-phase column. A concave quadratic gradient of ammonium formate buffer and acetonitrile was found to be optimum. The limits of quantitation were 0.2 mol kg^–1 plant tissue for glutathione and PC. The method has been applied to analysis of tissue samples from Vicia faba grown in Cd-containing nutrient solutions.Dedicated to the memory of Wilhelm Fresenius     

Simultaneous quantification of ten cytotoxic drugs by a validated LC–ESI–MS/MS method

A liquid chromatography separation with electrospray ionisation and tandem mass spectrometry detection method was developed for the simultaneous quantification of ten commonly handled cytotoxic drugs in a hospital pharmacy. These cytotoxic drugs are cytarabine, gemcitabine, methotrexate, etoposide phosphate, cyclophosphamide, ifosfamide, irinotecan, doxorubicin, epirubicin and vincristine. The chromatographic separation was carried out by RPLC in less than 21 min, applying a gradient elution of water and acetonitrile in the presence of 0.1% formic acid. MS/MS was performed on a triple quadrupole in selected reaction monitoring mode. The analytical method was validated to determine the limit of quantification (LOQ) and quantitative performance: lowest LOQs were between 0.25 and 2 ng mL(-1) for the ten investigated cytotoxic drugs; trueness values (i.e. recovery) were between 85% and 110%, and relative standard deviations for both repeatability and intermediate precision were always inferior to 15%. The multi-compound method was successfully applied for the quality control of pharmaceutical formulations and for analyses of spiked samples on potentially contaminated surfaces.     

Method optimization for the determination of carbonyl compounds in disinfected water by DNPH derivatization and LC–ESI–MS–MS

A method has been developed for quantitative determination of carbonyl disinfection by-products (DBP) from aqueous samples by derivatization with 2,4-dinitrophenylhydrazine combined with high-performance liquid chromatography (HPLC) and electrospray ionization (ESI) tandem mass spectrometry (MS-MS). The effect of excess of derivatization reagent and derivatization time, the effect of buffer and dry-gas temperature in the ESI process, and the effect of focus potential and collision energy in MS measurement are shown. Major fragment ions for compound identification on the basis of collision-induced dissociation (CID) mass spectra (MS) are given, as are common fragments for screening analyses by MS experiments such as the use of precursor ion scans. Detection limits in the microg x L(-1) range could be achieved by selected ion monitoring measurements without sample preconcentration. Solid-phase extraction improved the sensitivity by a factor of 25 to 250. The applicability of the method is illustrated by DBP analyses of samples from outdoor swimming pools after chlorination. Several carbonyl compounds, e.g. aldehydes, ketones, hydroxybenzaldehyde, and dicarbonyl compounds were identified.     

Simultaneous Determination of Toxic Alkaloids in Blood and Urine by HPLC–ESI–MS/MS

A sensitive and selective method for simultaneous determination of 29 toxic alkaloids in human blood and 31 in urine using high-performance liquid chromatography–electrospray ionization-tandem mass spectrometry was developed and validated. The samples were diluted with 0.1 mol L⁻¹ HCl, and the target alkaloids were purified by solid phase extraction. The separation of 31 alkaloids was carried out on a C18 column using a gradient mobile phase with 10 mmol L⁻¹ ammonium formate in water with 0.1% formic acid and methanol at the rate of 0.25 mL min⁻¹. The triple-quadrupole mass spectrometer equipped with an electrospray source in the positive mode was set up in the dynamic multiple reactions monitoring mode (dynamic MRM) to detect the ion transitions of 31 alkaloids. The calibration curves were linear over a range of 0.5–400, 1–400, or 4–400 μg L⁻¹ for target alkaloids in human blood and urine, and the correlation coefficients (r ²) was higher than 0.9943. The limit of determination and limit of quantification were 0.2–1 and 0.5–4 μg L⁻¹ for blood and urine, respectively. The only exceptions were sanguinarine and chelerythrine in human blood. All the target alkaloids were stable under the test condition. In addition, the solvent effect and reconstituted solution were investigated. The method was validated and proved to be accurate and precise over the studied concentrations and suitable for poisoning diagnosis and forensic toxicology.

     

Simultaneous determination of six constituents in Mahuang Fuzi Xixin by UPLC-PDA–MS/MS

Mahuang Fuzi Xixin (MFX), a classic recipe in traditional Chinese medicine, belongs to an exterior-relieving formula. For quality control of the MFX products, qualitative analysis using ultra-high performance liquid chromatography with diode-array detector–tandem mass spectrometry (UPLC-PDA–MS/MS) was undertaken. Six compounds from the MFX were simultaneously detected. Among them, astragalin and kaempferol 3-rutinoside were quantified through the UPLC–MS/MS method, while asarinin, sesamin, kakuol and methyleugenol were quantified through the UPLC-PDA method. This method can be applied to the quantitative determination of the six compounds in the MFX.     

Simultaneous Determination of 42 Pesticides and Herbicides in Chicken Eggs by UHPLC–MS/MS and GC–MS Using a QuEChERS-Based Procedure

A quick, easy, cheap, rugged, effective, and safe (QuEChERS)-based method has been validated for the extraction of 42 pesticides and herbicides including organophosphorus pesticides (OPPs), carbamate pesticides (CBs), herbicides (HBs), organochlorine pesticides (OCPs), and synthetic pyrethroid pesticides (PYRs) from chicken eggs. The QuEChERS-based extraction procedure was followed by cleanup steps using C18 and primary secondary amine sorbents. The supernatant was analyzed by ultra-high performance liquid chromatography–tandem mass spectrometry (UHPLC–MS/MS) and gas chromatography–mass spectrometry (GC–MS). The OPPs, CBs, and HBs were quantified by UHPLC–MS/MS, while the OCPs and PYRs were detected by GC–MS. The limits of quantification ranged from 0.01 to 8.5 μg kg⁻¹, and the analyte recoveries were in the range of 64.9–123.2 %. Furthermore, the repeatabilities (intra-day and inter-day) were good, and linear matrix-matched calibration curves were obtained. Acetochlor was identified in concentrations ranging from 0.27 to 0.44 μg kg⁻¹ in four samples from 80 chicken eggs. The method was successfully demonstrated for the fast and reliable analysis of pesticides and herbicides in chicken egg samples.

     

Development of a multianalyte method for the determination of anabolic hormones in bovine urine by isotope-dilution GC–MS/MS

A sensitive, specific and selective multianalyte GC–MS/MS method has been developed for the determination of 11 anabolic hormones in bovine urine. After adjusting the urine pH to 4.8, the samples were spiked with deuterated internal standards and submitted to enzymatic hydrolysis with β-glucuronidase/arylsulfatase. Hormones were eluted with methanol through a C18 solid phase cartridge and submitted to a liquid–liquid extraction. Analytes were derivatized by adding N,O-bis(trimethylsilyl)trifluoroacetamide (BSTFA) with 1% trimethylchlorosilane and GC–MS data were obtained in the positive electron impact tandem mass mode. Under these conditions, no matrix effects were observed and limit of detection values were in the range of 0.005 ng/mL (diethylstilbestrol) to 0.38 ng/mL (17α-methyltestosterone and 17α-ethynylestradiol). Recoveries from 81% (α-zeranol) to 149% (17α-methyltestosterone) were found under the selected conditions. These results were better than those found using heptafluorobutyric anhydride (HFBA) as derivative reagent and those measured in full scan and selective ion monitoring modes.     

Pressurized-liquid extraction for determination of illicit drugs in hair by LC–MS–MS

An LC–MS–MS-based procedure for determination in hair of 14 different drugs of abuse belonging to the classes cocaine, amphetamine-like compounds, opiates, and hallucinogens has been developed. A pressurized-liquid extraction procedure was used and proved useful for quantitative recovery of all the analytes tested. This procedure, in conjunction with a simple decontamination step, performed to avoid false-positive samples, enabled the detection of all the analytes with LOQ ranging from 1.8 to 16 pg mg^?1 and accuracy varying from 85 to 111 %. The procedure was validated in accordance with the SOFT/AAFS guidelines and seems to be suitable for routine determination of the drugs tested in hair.     

Rapid screening and quantification of sulfonate derivatives in white peony root by UHPLC–MS–MS

A rapid ultra-high-performance liquid chromatographic–tandem mass spectrometric (UHPLC–MS–MS) method has been developed for rapid screening and quantitative analysis of sulfonate derivatives (SDs) in commercial white peony root. Separation was performed on an Agilent Zorbax Eclipse Plus-C18 column by gradient elution with acetonitrile–0.1% (v/v) formic acid as the mobile phase. In-source fragmentation was used to generate the characteristic fragment ion at m/z 259 and to screen for nine SDs. Detection of these SDs was further performed in multiple reaction monitoring (MRM) mode to improve sensitivity and to quantify the two SDs paeoniflorin sulfonate and benzoylpaeoniflorin sulfonate. The method was validated for specificity, linearity, limits of detection and quantification, precision, accuracy, and matrix effects. Nine commercial white peony root samples were examined by use of this method, which revealed great variety in the paeoniflorin sulfonate and benzoylpaeoniflorin sulfonate content.     

Analysis of autophosphorylation sites in the recombinant catalytic subunit alpha of cAMP-dependent kinase by nano-UPLC–ESI–MS/MS

The catalytic subunit of recombinant wild-type cyclic adenosine monophosphate-dependent protein kinase A (PKA) has been analyzed by a combination of 1D gel electrophoresis, in-gel digestion by trypsin, chymotrypsin, or endoproteinase AspN, and nano-ultraperformance liquid chromatography–MS/MS. The MS/MS spectra were annotated by MASCOT and the annotations were manually controlled. Using Ga(III)-immobilized metal ion affinity chromatography (IMAC), in addition to the four established autophosphorylation sites of the catalytic subunit of recombinant PKA, pSer10, pSer139, pThr197, and pSer338, six new phosphorylated residues have been characterized–pSer14, pThr48, pSer53, pSer212, pSer259, and pSer325. The established phosphorylation sites all are part of a PKA consensus motif and were found to be almost completely modified. In contrast, the newly detected sites were only partially phosphorylated. For estimation of their degree of phosphorylation, a method based on signal intensity measurements was used. For this purpose, signal intensities of all phospho- and non-phosphopeptides containing a particular site were added for estimation of site-specific phosphorylation degrees. This addition was performed over all peptides observed in the different digestion experiments, including their different charge states. pThr48 and pSer259 are located within PKA consensus motifs and were observed to be phosphorylated at 20% and 24%, respectively. pSer14 and pSer53 are located within inverted PKA consensus motifs and were found to be phosphorylated around 10% and 15%, respectively. The sequence environments of pSer212 and pSer325 have no similarity to the PKA consensus motif at all and were observed to be phosphorylated at about 5% or lower. All newly observed phosphorylation sites are located at the surface of the native protein structure of the PKA catalytic subunit. The results add new information on the theme of site-specific (auto)phosphorylation by PKA.      

Quantitative determination of bilobetin in rat plasma by HPLC–MS/MS and its application to a pharmacokinetic study

Although bilobetin, a biflavone isolated from the leaves of Ginkgo biloba, represents a variety of pharmacological activities, to date there have been no validated determination methods for bilobetin in biological samples. Thus, we developed a liquid chromatographic method using a tandem mass spectrometry for the determination of bilobetin in rat plasma. After protein precipitation with acetonitrile including diclofenac (internal standard), the analytes were chromatographed on a reversed-phased column with a mobile phase of purified water and acetonitrile (3:7, v/v, including 0.1% formic acid). The ion transitions of the precursor to the product ion were principally deprotonated ions [M − H]⁻ at m/z 551.2 → 519.2 for bilobetin and 296.1 → 251.7 for the IS. The accuracy and precision of the assay were in accordance with US Food and Drug Administration regulations for the validation of bioanalytical methods. This analytical method was successfully applied to monitor plasma concentrations of bilobetin over time following intravenous administration in rats.     

Validation and application of a novel UHPLC–MS/MS method for the measurement of furanodienone in rat plasma

A sensitive ultra-high performance liquid chromatography–tandem mass spectrometry (UHPLC–MS/MS) method was established to analyze furanodienone in rat plasma. In the process of chromatographic separation, selected reaction monitoring transitions for furanodienone and patchouli alcohol (internal standard, IS) were m/z 231.1 → 83.2 and m/z 205.1 → 95.1, respectively. Great linearity of furanodienone in plasma samples was found in the corresponding concentration range (r > 0.995). Intra- and inter-day precisions (RSD, %) were <11.3% in plasma, and the accuracy (RE, %) was within ±10.7%. This method was used to the furanodienone study on rat pharmacokinetics after a single oral dose of 10 mg/kg of furanodiene. The results indicated that the maximum observed plasma concentration was 52.4 ± 19.1 ng/ml at 1.2 ± 0.7 h with an elimination half-life of 2.2 ± 0.7 h. The obtained data indicated that furanodienone could be moderately distributed and eliminated.     

Identification of In Vitro Metabolites of Amoxicillin in Human Liver Microsomes by LC–ESI/MS

Amoxicillin (AMOX) metabolism in human liver microsomes was studied in vitro using liquid chromatography–mass spectrometry (LC/MS). Amoxicillin was incubated with human liver microsomes along with NADPH, and the reaction mixture was analyzed by LC/MS to obtain the specific metabolic profile of the studied antibiotic drug. Positive electrospray ionization was employed as the ionization source. An ACE C18-column (4.6 mm × 150 mm, 3 μm) was implemented with acetonitrile and water (+0.1 % formic acid) in isocratic mode as the mobile phase at the flow 0.4 mL min^?1. The chemical structures of metabolites were proposed on the basis of the accurate mass measurement of the protonated molecule as well as their main product. Six phase I and one phase II metabolites were detected and structurally described. The metabolism of AMOX occurred via oxidation, hydroxylation and oxidative deamination, as well as through combination of these reactions. Compound M7, with glucuronic acid was also observed as phase II metabolite. Neither sulfate nor glutathione conjugates were detected. This study presents novel information about the chemical structure of the potential AMOX metabolites and provides vital data for further pharmacokinetic and in vivo metabolism studies.     

Development of a procedure for the multi-element determination of trace elements in wine by ICP–MS

An inductively coupled plasma mass spectrometric (ICP–MS) procedure has been developed for the determination of trace elements in wine. The procedure consists in simple 1+1 dilution of the wine and semi-quantitative analysis (without external calibration) using In as internal standard. Thirty-one elements at concentrations ranging from 0.1 mg mL^–1 to 0.5 ng mL^–1 can be determined by ICP–MS analysis with and without digestion. It was investigated whether a matrix effect observed for EtOH in the wine matrix can be overcome by application of a micro-concentric nebulizer with a membrane desolvator (MCN 6000). The results obtained for the MCN 6000 are compared with those obtained by use of a conventional Meinhard nebulizer. It is shown that the observed matrix effect can only be compensated by use of an internal standard for the Meinhard nebulizer, but not for the MCN 6000. Results for ICP–MS are compared with those obtained by total reflection X-ray fluorescence spectrometry (TXRF).