Comparative evaluation of new Cookson‐type reagents for LC/ESI‐MS/MS assay of 25‐hydroxyvitamin D3 in neonatal blood samples

The screening of vitamin D deficiency in neonatal infants, which is based on the blood 25‐hydroxyvitamin D₃ [25(OH)D₃] quantification, is important for the early detection, diagnosis and health risk assessment of several diseases. In this study, two new Cookson‐type reagents, 4‐(4‐diethylaminophenyl)‐1,2,4‐triazoline‐3,5‐dione (DEAPTAD) and 4‐(6‐quinolyl)‐1,2,4‐triazoline‐3,5‐dione, were designed and synthesized, then compared with the previous reagents, 4‐phenyl‐1,2,4‐triazoline‐3,5‐dione (PTAD) and 4‐(4‐dimethylaminophenyl)‐1,2,4‐triazoline‐3,5‐dione (DAPTAD), in terms of sensitivity and specificity in the assay of 25(OH)D₃ in neonatal blood samples by liquid chromatography/electrospray ionization–tandem mass spectrometry. Among the reagents, DEAPTAD was found to be the most promising. The limit of detection (0.38 fmol on the column) of the DEAPTAD‐derivatized 25(OH)D₃ was 60 and 2 times lower than those of the intact 25(OH)D₃ and the PTAD derivative, respectively. 25(OH)D₃ was more clearly detected in the plasma sample as the DEAPTAD derivative than the DAPTAD derivative owing to the lower background noise. DEAPTAD derivatization was also useful for the separation of 25(OH)D₃ from a potent interfering metabolite, 3‐epi‐25‐hydroxyvitamin D₃. By using DEAPTAD, a trace amount of 25(OH)D₃ in dried blood spots was reproducibly determined without interference from coexisting compounds. Thus, DEAPTAD was proved useful in the measurement of 25(OH)D₃ in neonatal blood samples. Copyright © 2015 John Wiley & Sons, Ltd.     

Identification of conjugation positions of urinary glucuronidated vitamin D3 metabolites by LC/ESI–MS/MS after conversion to MS/MS‐fragmentable derivatives

A liquid chromatography/electrospray ionization–tandem mass spectrometry‐based method was developed for the identification of the conjugation positions of the monoglucuronides of 25‐hydroxyvitamin D₃ [25(OH)D₃] and 24,25‐dihydroxyvitamin D₃ [24,25(OH)₂D₃] in human urine. The method employed derivatization with 4‐(4‐dimethylaminophenyl)‐1,2,4‐triazoline‐3,5‐dione to convert the glucuronides into fragmentable derivatives, which provided useful product ions for identifying the conjugation positions during the MS/MS. The derivatization also enhanced the assay sensitivity and specificity for urine sample analysis. The positional isomeric monoglucuronides, 25(OH)D₃‐3‐ and ‐25‐glucuronides, or 24,25(OH)₂D₃‐3‐, ‐24‐ and ‐25‐glucuronides, were completely separated from each other under the optimized LC conditions. Using this method, the conjugation positions were successfully determined to be the C3 and C24 positions for the glucuronidated 25(OH)D₃ and 24,25(OH)₂D₃, respectively. The 3‐glucuronide was not present for 24,25(OH)₂D₃, unlike 25(OH)D₃, thus we found that selective glucuronidation occurs at the C24‐hydroxy group for 24,25(OH)₂D₃.     

Determination of 25‐hydroxyvitamin D3 in human plasma using HPLC with UV detection based on SPE sample preparation

Interest in the metabolism and physiological action of vitamin D is increased exponentially. The most important metabolites of vitamin D are 25‐hydroxyvitamin and 1,25‐dihydroxyvitamin D₃. The aim of the study was to develop a rapid and simple HPLC method for the measurement of 25‐hydroxyvitamin D₃ in human plasma. A method for the measurement of 25‐hydroxyvitamin D₃ using HPLC with UV detection and investigation into the extraction techniques with regard to stability and recovery are described. For the separation, RP column LiChroCart 125‐4, Purospher RP‐18e, 5 μm, was used. The mixture of methanol and deionized water (95:5 v/v) was used as mobile phase. The analytical performance of this method is satisfactory: the intra‐ and inter‐assay coefficients of variation were below 10%. Quantitative recoveries from spiked plasma samples were between 92.0–103.2%. The LOD was 10 nmol/L. The preliminary reference range of 25‐hydroxyvitamin D₃ in a group of blood donors is 62 ± 26 nmol/L.     

Quantification of physiological levels of vitamin D3 and 25‐hydroxyvitamin D3 in porcine fat and liver in subgram sample sizes

Most methods for the quantification of physiological levels of vitamin D₃ and 25‐hydroxyvitamin D₃ are developed for food analysis where the sample size is not usually a critical parameter. In contrast, in life science studies sample sizes are often limited. A very sensitive liquid chromatography with tandem mass spectrometry method was developed to quantify vitamin D₃ and 25‐hydroxyvitamin D₃ simultaneously in porcine tissues. A sample of 0.2–1 g was saponified followed by liquid–liquid extraction and normal‐phase solid‐phase extraction. The analytes were derivatized with 4‐phenyl‐1,2,4‐triazoline‐3,5‐dione to improve the ionization efficiency by electrospray ionization. The method was validated in porcine liver and adipose tissue, and the accuracy was determined to be 72–97% for vitamin D₃ and 91–124% for 25‐hydroxyvitamin D₃. The limit of quantification was <0.1 ng/g, and the precision varied between 1.4 and 16% depending on the level of spiking. The small sample size required for the described method enables quantification of vitamin D₃ and 25‐hydroxyvitamin D₃ in tissues from studies where sample sizes are limited.     

Development and optimization of an LC-MS/MS-based method for simultaneous quantification of vitamin D2 , vitamin D3 , 25-hydroxyvitamin D2 and 25-hydroxyvitamin D3

Simultaneous and accurate measurement of vitamin D and 25-hydroxyvitamin D in biological samples is a barrier limiting our ability to define "optimal" vitamin D status. Thus, our goal was to optimize conditions and evaluate an LC-MS method for simultaneous detection and quantification of vitamin D(2) , vitamin D(3) , 25-hydroxyvitamin D(2) and 25-hydroxyvitamin D(3) in serum. Extraction and separation of vitamin D forms were achieved using acetone liquid-liquid extraction and by a reversed phase C8 column, respectively. Detection was performed on a triple quadrupole tandem mass spectrometer (QQQ-MS/MS) equipped with atmospheric pressure photo ionization source. The LOQs for all analytes tested were 1 ng/mL for hydroxylated molecules and 2 ng/mL for the parent vitamin Ds. RSD at lower LOQ (2 ng/mL) and in medium (80 ng/mL) and high (200 ng/mL) quality control samples did not exceed 20 and 15% CV, respectively. Accuracy of the method for determination of hydroxylated molecules was also validated using National Institutes of Standards and Technology standard samples and found to be in the range of 90.9-111.2%. In summary, a sensitive and reproducible method is reported for simultaneous quantification of vitamin D(2) , vitamin D(3) , 25-hydroxyvitamin D(2) and 25-hydroxyvitamin D(3) molecules in biological samples.     

New approach for the clinical monitoring of 25‐hydroxyvitamin D3 and 25‐hydroxyvitamin D2 by ultra high performance liquid chromatography with MS/MS based on the standard reference material 972

Biomarkers, 25‐hydroxyvitamin D₃ and 25‐hydroxyvitamin D₂, are important indicators of the vitamin D general status and are monitored in several pathophysiological disorders, such as osteoporosis, diabetes, heart disease, etc. A novel ultra‐HPLC with MS/MS methodology for the analysis of 25‐hydroxyvitamin D derivatives coupled with a very simple and highly rapid sample preparation step was developed. Analytical parameters obtained showed linearity (R²) above 0.999 for both vitamins with accuracies between 95.8 and 102%. The LODs were as low as 0.22 and 0.67 nmol/L for 25‐hydroxyvitamin D₃ and 25‐hydroxyvitamin D₂, respectively. Intra‐assay precision (%RSD) was lower than 4.5%, and inter‐assay precision (%RSD) was lower than 6.5%. The feasibility of the developed methodology to be applied in clinical routine analysis has been proved by its application in blood samples from non‐agenarian patients, patients with familial hypercholesterolemia and patients suffering from age‐related macular degeneration.     

Development,validation and comparison of four methods for quantifying endogenous 25OH‐D3 in human plasma

To meet the increasing clinical needs for 25‐hydroxyvitamin D3 (25OH‐D3) detection, the development of an efficient and accurate high‐performance liquid chromatography–mass spectrometry (HPLC–MS) method for plasma 25OH‐D3 quantitation is important. Since 25OH‐D3 is an endogenous compound, the lack of a plasma blank increases the difficulty of accurately quantifying 25OH‐D3. Selection of a method suitable for clinical monitoring among various methods for endogenous compound quantification is necessary. Methyl tert butyl ether was chosen for the sample treatment in a liquid–liquid extraction protocol. Water as a blank matrix, 5% human serum albumin in water as a blank matrix, surrogate analyte and background subtraction were designed to address the problem of a deficiency of a plasma blank. Four liquid chromatography–tandem mass spectrometry methods were fully validated to verify the advantages and limitations owing to regulatory deficiencies for endogenous compound validation. All four methods met the criteria and could be used to monitor clinical samples. Overall 30 human plasma samples were quantified in parallel using the four methods. The difference between any two methods was <12.6% and the total relative standard deviation was <5.2%. Background subtraction and 5% human serum albumin in water as a blank matrix may be better choices considering data quality, matrix similarity, cost and practicality.     

Derivatization of chiral carboxylic acids with (S)‐anabasine for increasing detectability and enantiomeric separation in LC/ESI‐MS/MS

A simple and practical derivatization procedure for increasing the detectability and enantiomeric separation of chiral carboxylic acids in LC/ESI‐MS/MS has been developed. (S)‐Anabasine (ANA) was used as the derivatization reagent and rapidly reacted with carboxylic acids [3‐hydroxypalmitic acid (3‐OH‐PA), 2‐(β‐carboxyethyl)‐6‐hydroxy‐2,7,8‐trimethylchroman (γ‐CEHC), and etodolac] in the presence of 4‐(4,6‐dimethoxy‐1,3,5‐triazin‐2‐yl)‐4‐methylmorpholium chloride. The resulting ANA‐derivatives were highly responsive in ESI‐MS operating in the positive‐ion mode and gave characteristic product ions during MS/MS, which enabled sensitive detection using selected reaction monitoring; the detection responses of the ANA‐derivatives were increased by 20–160‐fold over those of the intact carboxylic acids and the limits of detection were in the low femtomole range (1.8–11 fmol on the column). The ANA‐derivatization was also effective for the enatiomeric separation of the chiral carboxylic acids; the resolution was 1.92, 1.75, and 2.03 for 3‐OH‐PA, γ‐CHEC, and etodolac, respectively. The derivatization procedure was successfully applied to a biological sample analysis; the derivatization followed by LC/ESI‐MS/MS enabled the separation and detection of trace amounts of 3‐OH‐PA in neonatal dried blood spot and γ‐CEHC in human saliva with a simple pretreatment and small sample volume.     

Analysis of retinol, α‐tocopherol, 25‐hydroxyvitamin D2 and 25‐hydroxyvitamin D3 in plasma of patients with cardiovascular disease by HPLC–MS/MS method

Fat‐soluble vitamins play a pivotal role in the progression of atherosclerosis and the development of cardiovascular disease. Therefore, plasma monitoring of their concentrations may be useful in the diagnosis of these disorders as well as in the process of treatment. The study aimed to develop and validate an HPLC–MS/MS method for determination of retinol, α‐tocopherol, 25‐hydroxyvitamin D2 and 25‐hydroxyvitamin D3 in plasma of patients with cardiovascular disease. The analytes were separated on an HPLC Kinetex F5 column via gradient elution with water and methanol, both containing 0.1% (v/v) formic acid. Detection of the analytes was performed on a triple‐quadrupole MS with multiple reaction monitoring via electrospray ionization. The analytes were isolated from plasma samples with liquid–liquid extraction using hexane. Linearity of the analyte calibration curves was confirmed in the ranges 0.02–2 μg/mL for retinol, 0.5–20 μg/mL for α‐tocopherol, 5–100 ng/mL for 25‐hydroxyvitamin D2 and 2–100 ng/mL for 25‐hydroxyvitamin D3. Intra‐ and inter‐assay precision and accuracy of the method were satisfactory. Short‐ and long‐term stabilities of the analytes were determined. The HPLC‐MS/MS method was applied for the determination of the above fat‐soluble vitamin concentrations in patient plasma as potential markers of the cardiovascular disease progression.     

Development and validation of an LC‐ESI‐MS/MS quantification method for a potential γ‐aminobutyric acid transporter 3 (GAT3) marker and its application in preliminary MS binding assays

Binding assays for the γ‐aminobutyric acid (GABA) transporter GAT3 can be assumed to significantly facilitate screening for respective inhibitors. As appropriate labeled ligands for this promising drug target are not available so far, we started efforts to set up mass spectrometry‐based binding assays (MS binding assays), for which labeled markers are not required. Therefore, we developed a sensitive and rapid LC‐ESI‐MS/MS quantification method for DDPM‐1007 {(RS)‐1‐[4,4,4‐Tris(4‐methoxyphenyl)but‐2‐en‐1‐yl]piperidine‐3‐carboxylic acid}, one of the most potent GAT3 inhibitors yet known, as a potential GAT3 marker. Using a 50 × 2 mm C₈ column in combination with a mobile phase composed of 10 mm ammonium bicarbonate buffer pH 8.0 and acetonitrile (60:40, v/v) at a flow rate of 450 μL/min DDPM‐1007 could be analyzed in the positive multiple reaction monitoring mode [(m/z) 502.5 → 265.4] within a chromatographic cycle time of 3 min. Deuterated DDPM‐1007 [(²H₉)DDPM‐1007] was synthesized and employed as internal standard. This way DDPM‐1007 could be quantified in a range from 100 pm to10 nm in the matrix resulting from respective binding experiments without any sample preparation. The established quantification method met the requirements of the FDA guidance for bioanalytical method validation concerning linearity and intra‐ and inter‐batch accuracy. Based on this LC‐ESI‐MS/MS quantification preliminary MS binding assays employing membrane preparations obtained from a stably GAT3 expressing HEK293 cell line and DDPM‐1007 as nonlabeled GAT3 marker could be performed. In these experiments specific binding of DDPM‐1007 at GAT3 could be unambiguously detected. Additionally, the established LC‐MS method provides a suitable analytical tool for further pharmacokinetic characterization of DDPM‐1007, as exemplified for its logD determination. Copyright © 2012 John Wiley & Sons, Ltd.     

An LC-MS/MS Method for Analysis of Vitamin D Metabolites and C3 Epimers in Mice Serum: Oral Supplementation Compared to UV Irradiation

Introduction: The most common forms of vitamin D in human and mouse serum are vitamin D3 and vitamin D2 and their metabolites. The aim of this study is to determine whether diet and sunlight directly affect the circulating concentrations of vitamin D metabolites in a mouse model. We investigated the serum concentrations of eight vitamin D metabolites—vitamin D (vitamin D3 + vitamin D2), 25OHD (25OHD3 + 25OHD2), 1α25(OH)₂D (1α25(OH)₂D2, and 1α25(OH)₂D3)—including their epimer, 3-epi-25OHD (3-epi-25OHD3 and 3-epi-25OHD2), and a bile acid precursor 7alpha-hydroxy-4-cholesten-3-one (7αC4), which is known to cause interference in liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis. Method: The LC-MS/MS method was validated according to FDA-US guidelines. The validated method was used for the analysis of mouse serum samples. Forty blood samples from mice were collected and divided into three groups. The first group, the DDD mice, were fed a vitamin D-deficient diet (25 IU VD3/kg of diet) and kept in the dark; the second group, the SDD mice, were maintained on a standard-vitamin D diet (1000 IU VD3) and kept in the dark; and the third group, SDL, were fed a standard-vitamin D diet (1000 IU VD3) but kept on a normal light/dark cycle. LC-MS/MS was used for the efficient separation and quantitation of all the analytes. Results: The validated method showed good linearity and specificity. The intraday and interday precision were both <16%, and the accuracy across the assay range was within 100 ± 15%. The recoveries ranged between 75 and 95%. The stability results showed that vitamin D metabolites are not very stable when exposed to continuous freeze–thaw cycles; the variations in concentrations of vitamin D metabolites ranged between 15 and 60%. The overlapping peaks of vitamin D, its epimers, and its isobar (7αC4) were resolved using chromatographic separation. There were significant differences in the concentrations of all metabolites of vitamin D between the DDD and SDL mice. Between the groups SDD (control) and SDL, a significant difference in the concentrations of 3-epi-25OHD was noted, where C3 epimer was about 30% higher in SDL group while no significant differences were noted in the concentrations of vitamin D, 25OHD, 1α25(OH)₂D, and 7αC4 between SDD and SDL group. Conclusions: A validated method, combined with a simple extraction technique, for the sensitive LC-MS/MS determination of vitamin D metabolites is described here. The method can eliminate the interferences in LC-MS/MS analysis caused by the overlapping epimer and isobar due to them having the same molecular weights as 25OHD. The validated method was applied to mouse serum samples. It was concluded that a standard-vitamin D diet causes an increase in the proportion of all the vitamin D metabolites and C3 epimers and isobar, while UV light has no pronounced effect on the concentrations of the majority of the vitamin D metabolites except 3-epi-25OHD. Further studies are required to confirm this observation in humans and to investigate the biochemical pathways related to vitamin D’s metabolites and their epimers.     

Analysis of urinary vitamin D3 metabolites by liquid chromatography/tandem mass spectrometry with ESI-enhancing and stable isotope-coded derivatization

The determination of the urinary vitamin D₃ metabolites might prove helpful in the assessment of the vitamin D status. We developed a method for the determination of trace vitamin D₃ metabolites, 25-hydroxyvitamin D₃ [25(OH)D₃] and 24,25-dihydroxyvitamin D₃ [24,25(OH)₂D₃], in urine using liquid chromatography/electrospray ionization-tandem mass spectrometry (LC/ESI-MS/MS) combined with derivatization using an ESI-enhancing reagent, 4-(4′-dimethylaminophenyl)-1,2,4-triazoline-3,5-dione (DAPTAD), and its isotope-coded analogue, ²H₄-DAPTAD (d-DAPTAD). The urine samples were treated with β-glucuronidase, purified with an Oasis® hydrophilic–lipophilic balanced (HLB) cartridge, and then subjected to the derivatization. The DAPTAD derivatization enabled the highly sensitive detection (detection limit, 0.25 fmol on the column), and the use of d-DAPTAD significantly improved the assay precision [the intra- (n?=?5) and inter-assay (n?=?3) relative standard deviations did not exceed 9.5 %]. The method was successfully applied to urine sample analyses and detected the increases of the urinary 25(OH)D₃ and 24,25(OH)₂D₃ levels due to vitamin D₃ administration. Graphical Abstract

Scheme of procedure for urinary vitamin D₃ metabolite analysis based on LC/MS/MS with ESI-enhancing and isotope-coded derivatization.     

Determination of Vitamin D3 Metabolites Using High‐Performance Liquid Chromatography or Immunoaffinity Chromatography

Our investigation of the analysis of vitamin D₃ metabolites has been reviewed. The development of high‐performance liquid chromatographic methods for the quantitative determination of 25‐hydroxyvitamin D₃ 3‐sulfate and 25‐hydroxyvitamin D₃, which are the major circulating metabolites of vitamin D₃ in human serum/plasma, has been described. The developed methods were applied to the determination of the correlation between the concentration of the sulfate and its genin in healthy subjects and patients with chronic renal failure. The development of immunoaffinity chromatography immobilizing the highly specific anti‐1,25‐dihydroxyvitamin D₃ antibody for the pretreatment of radioreceptor assay of 1,25‐dihydroxyvitamin D₃, which is the active metabolite of vitamin D₃, is also described.     

On‐line 2D‐LC‐ESI/MS/MS determination of rifaximin in rat serum

A highly sensitive and selective on‐line two‐dimensional reversed‐phase liquid chromatography/electrospray ionization–tandem mass spectrometry (2D‐LC‐ESI/MS/MS) method was developed and validated to determine rifaximin in rat serum by direct injection. The 2D‐LC‐ESI/MS/MS system consisted of a restricted access media column for trapping proteins as the first dimension and a Waters C₁₈ column as second dimension using 0.1% aqueous acetic acid:acetonitrile as mobile phase in a gradient elution mode. Rifampacin was used as an internal standard. The linear dynamic range was 0.5–10 ng/mL (r² > 0.998). Acceptable precision and accuracy were obtained over the calibration range. The assay was successfully used in analysis of rat serum to support pharmacokinetic studies. Copyright © 2009 John Wiley & Sons, Ltd.     

A simple micro‐extraction plate assay for automated LC‐MS/MS analysis of human serum 25‐hydroxyvitamin D levels

This short application note describes a simple and automated assay for determination of 25‐hydroxyvitamin D (25(OH)D) levels in very small volumes of human serum. It utilizes commercial 96‐well micro‐extraction plates with commercial 25(OH)D isotope calibration and quality control kits. Separation was achieved using a pentafluorophenyl liquid chromatography column followed by multiple reaction monitoring‐based quantification on an electrospray triple quadrupole mass spectrometer. Emphasis was placed on providing a simple assay that can be rapidly established in non‐specialized laboratories within days, without the need for laborious and time consuming sample preparation steps, advanced calibration or data acquisition routines. The analytical figures of merit obtained from this assay compared well to established assays. To demonstrate the applicability, the assay was applied to analysis of serum samples from patients with chronic liver diseases and compared to results from a routine clinical immunoassay. Copyright © 2015 John Wiley & Sons, Ltd.     

Synthesis of benzofurazan derivatization reagents for short chain carboxylic acids in liquid chromatography/electrospray ionization‐tandem mass spectrometry (LC/ESI‐MS/MS)

Benzofurazan derivatization reagents, 4‐[2‐(N,N‐dimethylamino)ethylaminosulfonyl]‐7‐(2‐aminopentylamino)‐2,1,3‐benzoxadiazole (DAABD‐AP) and 4‐[2‐(N,N‐dimethylamino) ethylaminosulfonyl]‐7‐(2‐aminobutylamino)‐2,1,3‐benzoxadiazole (DAABD‐AB), for short‐chain carboxylic acids in liquid chromatography/electrospray ionization tandem mass spectrometry (LC/ESI‐MS/MS) were synthesized. These reagents reacted with short chain carboxylic acids in the presence of the condensation reagents at 60°C for 60 min. The generated derivatives were separated on the reversed‐phase column and detected by ESI‐MS/MS with the detection limits of 0.1–0.12 pmol on column. Upon collision‐induced dissociation, a single and intense product ion at m/z 151 was observed. These results indicated that DAABD‐AP and DAABD‐AB are suitable as the derivatization reagents in LC/ESI‐MS/MS analysis. Copyright © 2008 John Wiley & Sons, Ltd.     

Isothiocyanates as derivatization reagents for amines in liquid chromatography/electrospray ionization–tandem mass spectrometry

The applicability of 3‐pyridyl isothiocyanate, p‐(dimethylamino)phenyl isothiocyanate and m‐nitrophenyl isothiocyanate as the derivatization reagents for amines in high‐performance liquid chromatography/electrospray ionization–tandem mass spectrometry (LC/ESI‐MS/MS) was examined. The generated derivatives of amines with these reagents were favorably separated on the reversed‐phase column and detected by ESI‐MS/MS. The C–N bond of the generated thiourea structure was efficiently cleaved by collision‐induced dissociation and gave the single and intense product ion. Among the three reagents, 3‐pyridyl isothiocyanate was the most suitable as the derivatization reagent with regard to the reactivity to amines and the detection sensitivity. Copyright © 2009 John Wiley & Sons, Ltd.     

Liquid chromatography–tandem mass spectrometric method for the determination of salivary 25-hydroxyvitamin D<Subscript>3</Subscript>: a noninvasive tool for the assessment of vitamin D status

A sensitive liquid chromatography–electrospray ionization–tandem mass spectrometric (LC–ESI–MS/MS) method for the determination of 25-hydroxyvitamin D₃ [25(OH)D₃] in human saliva has been developed and validated. The saliva was deproteinized with acetonitrile, purified using a Strata-X cartridge, derivatized with a Cookson-type reagent, 4-phenyl-1,2,4-triazoline-3,5-dione (PTAD), and subjected to LC–MS/MS. The PTAD derivative was much more easily ionized in positive-ESI–MS and efficiently produced a characteristic product ion during MS/MS, compared to the intact 25(OH)D₃. Methylamine was used as the mobile phase additive, and also effectively enhanced the assay sensitivity. Quantification was based on selected reaction monitoring, and 25-hydroxyvitamin D₄ was used as the internal standard. This method allowed the reproducible and accurate quantification of salivary 25(OH)D₃ using a 1.0-ml sample, and the limit of quantitation for 25(OH)D₃ was 2.0 pg/ml. The applicability of the developed method for clinical studies was then examined. There was a positive linear relationship (r ² = 0.830) between the serum 25(OH)D₃ level, which is conventionally used as a means of assessing the vitamin D status, and the salivary 25(OH)D₃ level measured using the proposed method. The method also enabled the detection of the increase in the salivary 25(OH)D₃ level after the supplementation of vitamin D₃.     

LC‐MS/MS determination of bakkenolide D in rats plasma and its application in pharmacokinetic studies

A sensitive and rapid liquid chromatography–tandem mass spectrometry (LC‐MS/MS) method was developed and validated for determination of bakkenolide D (BD), which was further applied to assess the pharmacokinetics of BD. In the LC‐MS/MS method, the multiple reaction monitoring mode was used and columbianadin was chosen as internal standard. The method was validated over the range of 1–800 ng/mL with a determination coefficient >0.999. The lower limit of quantification was 1 ng/mL in plasma. The intra‐ and inter‐day accuracies for BD were 91–113 and 100–104%, respectively, and the inter‐day precision was <15%. After a single oral dose of 10 mg/kg of BD, the mean peak plasma concentration of BD was 10.1 ± 9.8 ng/mL at 2 h. The area under the plasma concentration–time curve (AUC_{0–24 h}) was 72.1 ± 8.59 h ng/mL, and the elimination half‐life (T_1/2) was 11.8 ± 1.9 h. In case of intravenous administration of BD at a dosage of 1 mg/kg, the AUC_{0–24 h} was 281 ± 98.4 h?ng/mL, and the T_1/2 was 8.79 ± 0.63 h. Based on these results, the oral bioavailability of BD in rats at 10 mg/kg is 2.57%. Copyright © 2013 John Wiley & Sons, Ltd.     

Simultaneous determination of five coumarins in Angelicae dahuricae Radix by HPLC/UV and LC‐ESI‐MS/MS

Rapid, simple and reliable HPLC/UV and LC‐ESI‐MS/MS methods for the simultaneous determination of five active coumarins of Angelicae dahuricae Radix, byakangelicol (1), oxypeucedanin (2), imperatorin (3), phellopterin (4) and isoimperatorin (5) were developed and validated. The separation condition for HPLC/UV was optimized using a Develosil RPAQUEOUS C₃₀ column using 70% acetonitrile in water as the mobile phase. This HPLC/UV method was successful for providing the baseline separation of the five coumarins with no interfering peaks detected in the 70% ethanol extract of Angelicae dahuricae Radix. The specific determination of the five coumarins was also accomplished by a triple quadrupole tandem mass spectrometer equipped with an electrospray ionization source (LC‐ESI‐MS/MS). Multiple reaction monitoring (MRM) in the positive mode was used to enhance the selectivity of detection. The LC‐ESI‐MS/MS methods were successfully applied for the determination of the five major coumarins in Angelicae dahuricae Radix. These HPLC/UV and LC‐ESI‐MS/MS methods were validated in terms of recovery, linearity, accuracy and precision (intra‐ and inter‐day validation). Taken together, the shorter analysis time involved makes these HPLC/UV and LC‐ESI‐MS/MS methods valuable for the commercial quality control of Angelicae dahuricae Radix extracts and its pharmaceutical preparations. Copyright © 2009 John Wiley & Sons, Ltd.