Quantitative analysis of major dibenzocyclooctane lignans in Schisandrae fructus by online TLC-DART-MS

Introduction – Direct analysis in real time (DART) ion source is a powerful ionising technique for the quick and easy detection of various organic molecules without any sample preparation steps, but the lack of quantitation capacity limits its extensive use in the field of phytochemical analysis. Objective – To improvise a new system which utilize DART‐MS as a hyphenated detector for quantitation. Methodology – A total extract of Schisandra chinensis fruit was analyzed on a TLC plate and three major lignan compounds were quantitated by three different methods of UV densitometry, TLC‐DART‐MS and HPLC‐UV to compare the efficiency of each method. To introduce the TLC plate into the DART ion source at a constant velocity, a syringe pump was employed. The DART‐MS total ion current chromatogram was recorded for the entire TLC plate. The concentration of each lignan compound was calculated from the calibration curve established with standard compound. Results – Gomisin A, gomisin N and schisandrin were well separated on a silica‐coated TLC plate and the specific ion current chromatograms were successfully acquired from the TLC‐DART‐MS system. The TLC‐DART‐MS system for the quantitation of natural products showed better linearity and specificity than TLC densitometry, and consumed less time and solvent than conventional HPLC method. Conclusion – A hyphenated system for the quantitation of phytochemicals from crude herbal drugs was successfully established. This system was shown to have a powerful analytical capacity for the prompt and efficient quantitation of natural products from crude drugs. Copyright © 2010 John Wiley & Sons, Ltd.     

Agrobacterium rhizogenes-mediated transformation of Picrorhiza kurroa Royle ex Benth.: establishment and selection of superior hairy root clone

A protocol for induction and establishment of Agrobacterium rhizogenes-mediated hairy root cultures of Picrorhiza kurroa was developed through optimization of the explant type and the most suitable bacterial strain. The infection of leaf explants with the LBA9402 strain resulted in the emergence of hairy roots at 66.7% relative transformation frequency. Nine independent, opine and TL-positive hairy root clones were studied for their growth and specific glycoside (i.e., kutkoside and picroside I) productivities at different growth phases. Biosynthetic potentials for the commercially desirable active constituents have been expressed by all the tested hairy root clones, although distinct inter-clonal variations could be noted in terms of their quantity. The yield potentials of the 14-P clone, both in terms of biomass as well as individual glycoside contents (i.e., kutkoside and picroside I), superseded that of all other hairy root clones along with the non-transformed, in vitro-grown control roots of P. kurroa. The present communication reports the first successful establishment, maintenance, growth and selection of superior hairy root clone of Picrorhiza kurroa with desired phyto-molecule production potential, which can serve as an effective substitute to its roots and thereby prevent the indiscriminate up-rooting and exploitation of this commercially important, endangered medicinal plant species. CIMAP Publication No.: 2007-28J     

Validated high-performance thin-layer chromatographic method for the quantification of thymoquinone in Nigella Sativa extracts and formulations

Introduction – The surge of interest in naturally occurring phytochemicals with anticancer potential has led to the discovery of many molecules, one of them being thymoquinone (TQ) the bioactive constituent of the volatile oil of black seed, Nigella sativa L. (NS). Objective – The aim of the present work was to develop and validate an HPTLC method for determination of TQ in NS extracts, commercially available marketed oils, polyherbal formulations and in lipid‐based oral and parenteral formulations prepared in‐house. Methodology – Analysis of TQ was performed on TLC aluminium plates pre‐coated with silica gel 60F‐254. Linear ascending development was carried out in twin trough glass chamber, saturated with mobile phase consisting of toluene–cyclohexane (8 : 2, v/v) at ambient temperature. Camag TLC scanner III was used for the spectrodensitometric scanning and analysis in absorbance mode at 254 nm. Results – The method was found to give compact spots for TQ (R_f value of 0.28 ± 0.05) and was linear over the range 100–1400 ng/spot (r² = 0.9921 ± 0.0020). Accuracy, precision and repeatability were all within the required limits. The mean recoveries measured at three concentrations were higher than 95% with RSD ≤ 3%. Conclusion – The HPTLC method developed was found to be relatively simple, rapid and accurate for the routine analysis of TQ in extracts, marketed oils, polyherbal and in‐house formulations. Copyright © 2011 John Wiley & Sons, Ltd.     

Rapid validated HPTLC method for estimation of betulinic acid in Nelumbo nucifera (Nymphaeaceae) rhizome extract

Introduction – Betulinic acid (pentacyclic triterpenoid) is an important marker component present in Nelumbo nucifera Gaertn. rhizome. N. nucifera rhizome has several medicinal uses including hypoglycaemic, antidiarrhoeal, antimicrobial, diuretic, antipyretic, psychopharmacological activities. Objective – To establish a simple, sensitive, reliable, rapid and validated high‐performance thin‐layer chromatography method for estimation of betulinic acid in hydro‐alcoholic extract of N. nucifera Gaertn. rhizome. Materials and methods – The separation was carried out on a thin‐layer chromatography aluminium plate pre‐coated with silica gel 60F₂₅₄, eluted with chloroform, methanol and formic acid (49 : 1 : 1 v/v). Post chromatographic derivatisation was done with anisaldehyde–sulphuric acid reagent and densitometric scanning was performed using a Camag TLC scanner III, at 420 nm. Results – The system was found to produce a compact spot for betulinic acid (R_f = 0.30). A good linear precision relationship between the concentrations (2–10 µg) and peak areas were obtained with the correlation coefficient (r) of 0.99698. The limit of detection and limit of quantification of betulinic acid were detected to be 0.4 and 2.30 µg per spot. The percentage of recovery was found to be 98.36%. The percentage relative standard deviations of intra‐day and inter‐day precisions were 0.82–0.394 and 0.85–0.341, respectively. Conclusion – This validated HPTLC method provides a new and powerful approach to estimate betulinic acid as phytomarker in the extract. Copyright © 2010 John Wiley & Sons, Ltd.     

Quantitative analysis of safranal in saffron extract and nanoparticle formulation by a validated high‐performance thin‐layer chromatographic method†

Introduction – Safranal is an effective anticonvulsant shown to act as an agonist at GABA_A receptors. Nose to brain delivery via nanoparticle formulation might improve its brain delivery. A selective and sensitive analytical method is required for evaluation of safranal‐based novel drug delivery systems. Objective – To develop and validate a high‐performance thin‐layer chromatographic (HPTLC) method for the quantitative analysis of safranal as bulk, in saffron extract and in developed safranal‐loaded nanoparticle formulation. Methodology – Chromatographic separation was achieved on silica gel pre‐coated TLC aluminium plates 60F‐254, using n‐hexane:ethyl acetate (9 : 1, v/v) as the mobile phase. Quantitative analysis was carried out by densitometry at a wavelength of 310 nm. The method was validated and applied to detect related impurities, to analyse safranal in saffron extract and to evaluate safranal‐loaded nanoparticles. Results – Compact spots of safranal were observed at R_f value 0.51 ± 0.02. The method was linear (r = 0.9991) between 0.5 and 5.0 μg/spot. The intra‐ and inter‐day precisions were 1.08–2.17 and 1. 86–3.47%, respectively. The limit of detection was 50 ng/spot and the limit of quantification was 150 ng/spot. The method proved to be accurate (recovery 97.4–102.0%) and was selective for safranal. Evaluation of safranal‐loaded nanoparticle formulation demonstrated drug loading of 23.0%, encapsulation efficiency of 42.0% and sustained drug release following biphasic pattern. Conclusion – The present method is useful for the quantitative and qualitative analysis of safranal and safranal‐loaded nanoparticle formulation. It provides significant advantages in terms of greater specificity and rapid analysis. Copyright © 2009 John Wiley & Sons, Ltd.     

Chemical composition,antioxidant and macromolecule damage protective effects of Picrorhiza kurroa Royle ex Benth

In the present study, we identified the chemical constituents of 70% hydroalcoholic fraction of Picrorhiza kurroa by LC–ESI–MS/MS which showed the presence of iridoid glucosides such as picroside I, picroside II, picroside III, picroside IV, kutkoside, pikuroside and flavonoids like apocynin and vanillic acid. P. kurroa exhibited DPPH radical scavenging and metal chelating activities with IC₅₀ of 75.16 ± 3.2 and 55.5 ± 4.8 μg/mL and also showed potent reducing power and total antioxidant activities. The extract inhibited macromolecule damage such as H₂O₂ induced plasmid DNA damage and AAPH induced oxidation of bovine serum albumin and lipid peroxidation of rat hepatic tissues.     

A sensitive and selective LC-MS-MS method for simultaneous determination of picroside-I and kutkoside (active principles of herbal preparation picroliv) using solid phase extraction in rabbit plasma: application to pharmacokinetic study

A rapid, sensitive and selective LC-MS-MS method for the simultaneous quantitation of picroside-I and kutkoside (active constituents of herbal hepatoprotectant picroliv) was developed and validated in rabbit plasma. The analytes and internal standard (Amarogentin) were extracted using Oasis HLB solid phase extraction cartridges. Analysis was performed on Spheri RP-18 column (10 microm, 100 mm x 4.6 mm i.d.) coupled with guard column using acetonitrile:MilliQ water (50:50, %v/v) as mobile phase at a flow rate of 1 ml/min with a retention time of 1.39, 1.33 and 1.42 min for picroside-I, kutkoside and amarogentin, respectively. The quantitation was carried out using an API-4000 LC-MS-MS with negative electro spray ionization in multiple reaction monitoring (MRM) mode. The precursor to product ion transitions for picroside-I, kutkoside and amarogentin were m/z 491 > 147, 199; 511 > 167, 235; 585 > 227, respectively. The method was validated in terms of establishing linearity, specificity, sensitivity, recovery, accuracy and precision (within- and between-assay variation), freeze-thaw (f-t), auto injector and dry residue stability. Linearity in plasma was observed over a concentration range of 1.56-400 ng/ml with a limit of detection (LOD) of 0.5 ng/ml for both analytes. The recoveries from spiked control samples were > 60 and > 70% for picroside-I and kutkoside, respectively. Accuracy and precision of the validated method were within the acceptable limits of < 20% at low and < 15% at other concentrations. The analytes were stable after three freeze-thaw cycles and their dry residues were stable at -60 degrees C for 15 days. The method was successfully applied to determine concentrations of picroside-I and kutkoside post i.v. bolus administration of picroliv in rabbit.     

Potential of thidiazuron in improved micropropagation of Picrorhiza kurroa– an endangered medicinal herb of alpine Himalaya

The potential of thidiazuron (1-phenyl-3-(1, 2, 3-thiadiazol-5-yl) urea (TDZ) in the micropropagation of Picrorhiza kurroa, a western Himalayan herb was studied. The roots and rhizomes of this plant are rich in medicinally important glycosides i.e., picroside I, picroside II and kutkoside. Nodal segments (2.0–2.5 cm) from plants were pretreated with 0, 0.25, 0.50, 0.75, 1.0 μM TDZ for 7, 15 and 30 days. Maximum shoot multiplication was recorded after 60 days, provided, the nodal segments pretreated with 0.5 μM TDZ for 15 days were transferred to 0.8% agar gelled MS medium containing 3.0% sucrose. The shoots also showed profuse rooting having maximum length. When these plantlets were incubated at 15°C for 10 days and transferred to sand under polyhouse conditions, 100% survival was recorded after one month. In contrast, when the plantlets were not incubated at 15°C, only 86% survival was recorded. While the stomata and chlorophyll content of the tissue culture-raised plantlets treated at 15°C were comparable to that of plants growing in the field, the ones that were not treated at 15°C showed lower number of stomata and chlorophyll content.     

Simultaneous determination of three naphthoquinones in the leaves of Impatiens balsamina L. by reversed-phase high-performance liquid chromatography

Introduction – Naphthoquinones; lawsone ( 1 ), lawsone methyl ether ( 2 ) and methylene‐3,3′‐bilawsone ( 3 ) are the main active compounds of Impatiens balsamina leaves. Objective – To develop and validate an HPLC method for simultaneous quantitative determination of 1 – 3 in I. balsamina leaf extracts. Methodology – The method utilised a Supelco® C₁₈ column (5 µm, 4.6 × 150 mm) at 25°C with the mixture of 2% aqueous acetic acid : methanol (gradient elution as follows: 0–10 min, 25 : 75; 10–20 min, 32 : 68; 20–35 min, 55 : 45) as the mobile phase at a flow‐rate of 1 mL/min, and UV detection at 280 nm. The parameters of linearity, repeatability, reproducibility, accuracy specificity and sensitivity of the method were evaluated. Results – The recovery of the method was 96–101% and linearity (r² ≥ 0.9995) was obtained for all naphthoquinones. A high degree of specificity, as well as repeatability and reproducibility (RSD less than 5%), were also achieved. Copyright © 2010 John Wiley & Sons, Ltd.     

Isolation of four high-purity dammarane saponins from extract of Panax notoginseng by centrifugal partition chromatography coupled with evaporative light scattering detection in one operation

Introduction – Centrifugal partition chromatography (CPC), as a continuous liquid–liquid partition chromatography with no solid support matrix, combined with evaporative light scattering detection (ELSD) was employed for systematic separation and purification of weak‐chromophoric saponins from a highly valued and important traditional Chinese herbal medicine, Panax notoginseng. Objective – To separate and isolate high‐purity saponins from extract of Panax notoginseng using CPC‐ELSD with a simple and low toxicity solvent system. Methodology – Samples were preparaed by extracting the root material with acetone, treated with n‐butanol and then freeze‐dried. CPC‐ELSD was applied in the separation and detection of notoginsenoside and ginsenosides from extract of Panax notoginseng using a solvent system composed of ethyl acetate–n‐butanol–water (1:1:2, v/v/v). The saponins were analysed and identified by their retention time with high‐performance liquid chromatography (HPLC) coupled with ELSD, as well as electrospray ionisation tandem mass spectrometry (ESI‐MSⁿ ) in the negative and positive ion modes with the authentic standards. Results – A total of 9.6 mg of notoginsenoside R₁, 67.8 mg of ginsenoside Rg₁, 2.3 mg of Re and 286.5 mg of Rb₁ were purified from 487.2 mg of n‐butanol extract of P. notoginseng. The purities of obtained saponins in a single run were assessed to be over 98% by HPLC‐ELSD. Conclusion – CPC‐ELSD was proved to be a very fast and efficient tool for separation of high‐purity dammarane saponins. Copyright © 2011 John Wiley & Sons, Ltd.     

Development of an LC‐MS method for simultaneous quantitation of amentoflavone and biapigenin,the minor and major biflavones from Hypericum perforatum L., in human plasma and its application to real blood

Introduction – Biflavones of Hypericum perforatum L. are bioactive compounds used in the treatment of inflammation and depression. Determination of amentoflavone and biapigenin from blood is challenging owing to their similar structures and low concentrations. Objective – To develop a rapid, sensitive and accurate method based on liquid‐phase extraction followed by high‐performance liquid chromatography and electrospray ionisation mass spectrometry (HPLC‐ESI‐MS) for quantification of biflavones in human plasma. Methodology – After extraction from blood, the analytes were subjected to HPLC with an XTerra® MS C₁₈ column and a binary mobile phase consisting of 2% formic acid in water and acetonitrile under isocratic elution conditions, with ESI‐MS detection in the negative ion mode and multiple reaction monitoring (MRM). Results – Both calibration curves showed good linearity within the concentration range 1–500 ng/mL. Limits of detection (S/N = 3) were 0.1 ng for pure substances and the limits of quantitation (S/N = 5) were 1.0 ng/mL from analyte‐spiked serum. The grand mean recovery was 90% from several subsamples of each biflavone. The imprecision (RSD) of peak areas was between 5% (intraday) and 10% (interday) for high concentrations (250 ng/mL) and between 10% (intraday) and 15% (interday) for low concentrations (1 ng/mL). Inaccuracy of the mean was less than 20% at the lower limit of quantitation. Conclusion – The developed and validated method for determination of biflavones from human plasma was effectively applied to pharmacokinetic studies of 13 probands and preliminary results indicate biphasic concentration–time curves. Copyright © 2010 John Wiley & Sons, Ltd.     

A TLC bioautographic method for the detection of α‐ and β‐glucosidase inhibitors in plant extracts

Introduction – Bioautographic assays using TLC play an important role in the search for active compounds from plants. A TLC assay has previously been established for the detection of β‐glucosidase inhibitors but not for α‐glucosidase. Nonetheless, α‐glucosidase inhibition is an important target for therapeutic agents against of type 2 diabetes and anti‐viral infections. Objective – To develop a TLC bioautographic method to detect α‐ and β‐glucosidase inhibitors in plant extracts. Methodology – The enzymes α‐ and β‐d ‐glucosidase were dissolved in sodium acetate buffer. After migration of the samples, the TLC plate was sprayed with enzyme solution and incubated at room temperature for 60 min in the case of α‐d ‐glucosidase, and 37°C for 20 min in the case of β‐d ‐glucosidase. For detection of the active enzyme, solutions of 2‐naphthyl‐α‐D‐glucopyranoside or 2‐naphthyl‐β‐D‐glucopyranoside and Fast Blue Salt were mixed at a ratio of 1 : 1 (for α‐d ‐glucosidase) or 1 : 4 (for β‐d ‐glucosidase) and sprayed onto the plate to give a purple background colouration after 2–5 min. Results – Enzyme inhibitors were visualised as white spots on the TLC plates. Conduritol B epoxide inhibited α‐d ‐glucosidase and β‐d ‐glucosidase down to 0.1 µg. Methanol extracts of Tussilago farfara and Urtica dioica after migration on TLC gave enzymatic inhibition when applied in amounts of 100 µg for α‐glucosidase and 50 µg for β‐glucosidase. Conclusion – The screening test was able to detect inhibition of α‐ and β‐glucosidases by pure reference substances and by compounds present in complex matrices, such as plant extracts. Copyright © 2009 John Wiley & Sons, Ltd.     

Online HPLC-DPPH method for antioxidant activity of Picrorhiza kurroa Royle ex Benth. and characterization of kutkoside by ultra-performance LC-electrospray ionization quadrupole time-of-flight mass spectrometry

Picrorhiza kurroa Royle ex Benth., is widely used in the Indian systems of medicine for the treatment of various liver ailments. Since, the role of oxidative stress in the pathogenesis of liver injury has become generally recognized, in present study the free radical scavenging effect of P. kurroa was assessed by on-line HPLC-DPPH and colorimetric DPPH methods. The comparative study on antioxidant activity of P. kurroa extracts by both methods revealed that colorimetric method showed very less free radical scavenging effect while HPLC-DPPH method showed high activity. Further, the kutkoside, an important ingredient of a potent hepatoprotective formulation "kutkin/picroliv" was investigated for its chemical composition by ultra-performance liquid chromatography coupled with diode array detection/electrospray ionization quadrupole time-of-flight mass spectrometry (UPLC-DAD/ESI-QTOF-MS). Kutkoside was considered to be a single compound and reported as picroside-II or kutkoside, however, present investigation illustrated that kutkoside is a mixture of iridoid glycosides namely, picroside II, picroside IV and 6-ferulloylcatalpol.     

Preparative Enantioseparation of (RS)‐Baclofen: Determination of Molecular Dissymmetry

The present work reports preparative enantioseparation of (RS)‐baclofen using thin‐layer chromatography (TLC) and high‐performance liquid chromatography (HPLC). Diastereomers were synthesized using a new monochloro‐s‐triazine‐based chiral derivatizing reagent (CDR), namely, N‐(4‐chloro‐6‐piperidinyl‐[1,3,5]‐triazine‐2‐yl)‐L‐phenylalanine, under microwave irradiation. Acetonitrile‐0.1% aq. triflouroacetic acid in gradient elution mode and CH₃OH‐CH₂Cl₂ (4:5; v/v) were successful as mobile phase in HPLC and TLC, respectively. The two diastereomers were isolated by preparative TLC. Molecular dissymmetry was established by developing the lowest energy optimized structures of the diastereomers based on Density Functional Theory and with the help of ¹H NMR showing anisotropic effect associated with aromatic ring of s‐triazine (in the CDR). The configuration of diastereomers was established as [L‐Phe‐(R)‐Bac] and [L‐Phe‐(S)‐Bac], where the first notation refers to the configuration of chiral auxiliary (of the CDR) and the second to that of the analyte Bac. Limits of detection were found to be 0.056 and 0.061 ng mL^?1, respectively, for the two diastereomers. Determination of absolute configuration of the two diastereomers lent support to the elution order and separation mechanism.Chirality 27:299–305, 2015. © 2015 Wiley Periodicals, Inc.     

Development and validation of chiral high-performance liquid chromatographic methods for the quantitation of valsartan and of the tosylate of valinebenzyl ester

A stereospecific HPLC method for the quantitation of CGP 49309 in samples of its corresponding enantiomer valsartan has been developed and validated. The enantiomeric separation was achieved on a 5 μm silica-bonded α₁-acid glycoprotein column (Chiral AGP) with a phosphate buffer, pH 7, containing 2% (v/v) 2-propanol as a mobile phase. The linearity was established in the range 0.1–4% (r>;0.999). The limit of quantitation was 0.1% and the limit of detection was 0.04%. The accuracy of the method was found to be 96.7% (average). For the precision (repeatability), a relative standard deviation value of 2.4% was found. Similarly, a stereoselective HPLC method was also developed and validated for the quantitation of the enantiomer of the starting material used for the synthesis of valsartan, namely (R)-valinebenzyl ester tosylate. Baseline resolution of the enantiomers of valinebenzyl ester tosylate could be achieved on the chiral crown ether column Crownpak CR (Daicel) at 50°C using water-methanol-trifluoroacetic acid (850:150:1, v/v) as a mobile phase. The linearity was established in the range 0.5-5% (r>;0.999). The accuracy of the method was found to be 100.5% (average). For the precision (repeatability), a relative standard deviation value of 3.4% was found. Both methods were found to be suitable for the analysis of the respective analytes.     

Simultaneous analysis of diosgenin and sarsasapogenin in Asparagus officinalis byproduct by thin‐layer chromatography

Introduction – Asparagus officinalis L. has several biological activities including antifungal, antiviral and antitumoral activities due to the steroidal saponins. Normally diosgenin and sarsasapogenin are analysed separately by thin‐layer chromatography or high‐performance liquid chromatography (HPLC‐UV or HPLC‐ELSD), which is time‐consuming and expensive, so we need to find a rapid solution to this problem. Objective – To develop a sensitive, rapid and validated TLC method for simultaneous detection and quantification of diosgenin and sarsasapogenin. Methodology – Samples were prepared by extraction of A. officinalis with 70% aqueous ethanol to get steroidal saponins, and then hydrolysed using 36 mL 2 m hydrochloric acid for 3 h. The hydrolysis product was extracted with chloroform, and then analysed by TLC, the results of which were verified by HPLC and HPLC‐MS. Results – The retention factor (R_f) of diosgenin and sarsasapogenin on TLC plate were 0.49 and 0.6, respectively. After calculation from the regression equation of the standard curve, the contents of diosgenin and sarsasapogenin in the A. officinalis extract were 0.27–0.46 and 0.11–0.32%, respectively. Conclusion – The study showed that thin‐layer chromatography can be applied for the determination of diosgenin and sarsasapogenin in the oldest tissue of A. officinalis, and also can be conducted for screening of sapogenin in other plant or extracts. Copyright © 2010 John Wiley & Sons, Ltd.     

Liquid chromatographic method for the determination of ticlopidine in human plasma

A simple high-performance liquid chromatographic method for determination of ticlopidine in human plasma using ultra violet detection was developed. The separation of the investigated compound and internal standard was achieved on a C₁₈ BD column with a 0.01 M potassium dihydrogen phosphate buffer (pH 4)–acetonitrile–methanol (20:40:40, v/v) mobile phase. The detection was performed at 215 nm. The compounds were isolated from plasma by Bond Elut C₁₈ solid-phase extraction, the mean absolute recovery was 84.9%. The limit of quantitation was 10 ng ml⁻¹, the limit of detection was 5 ng ml⁻¹. The bioanalytical method was validated with respect to linearity, within- and between-day accuracy and precision, system suitability and stability. All validated parameters were found to be within the internationally required limits. The developed analytical method for ticlopidine was found to be suitable for application in pharmacokinetic studies and human drug monitoring.     

Simultaneous determination of five characteristic stilbene glycosides in root bark of Morus albus L. (Cortex Mori) using high-performance liquid chromatography

Introduction – Cortex Mori, one of the well‐known traditional Chinese herbal medicines, is derived from the root bark of Morus alba L. according to the China Pharmacopeia. Stilbene glycosides are the main components isolated from aqueous extracts of Morus alba and their content varies depending on where Cortex Mori was collected. We have established a qualitative and quantitative method based on the bioactive stilbene glycosides for control of the quality of Cortex Mori from different sources. Objective – To develop a high‐performance liquid chromatography coupled with ultraviolet absorption detection for simultaneous quantitative determination of five major characteristic stilbene glycosides in 34 samples of the root bark of Morus alba L. (Cortex Mori) from different sources. Methodology – The analysis was performed on an ODS column using methanol‐water‐acetic acid (18: 82: 0.1, v/v/v) as the mobile phase and the peaks were monitored at 320 nm. Results – All calibration curves showed good linearity (r ≥ 0.9991) within test ranges. This method showed good repeatability for the quantification of these five components in Cortex Mori with intra‐ and inter‐day standard deviations less than 2.19% and 1.45%, respectively. Conclusion – The validated method was successfully applied to quantify the five investigated components, including a pair of cis‐trans‐isomers 1 and 2 and a pair of isomers 4 and 5 in 34 samples of Cortex Mori from different sources. Copyright © 2010 John Wiley & Sons, Ltd.     

Enantioselective analysis of N‐hydroxymexiletine glucuronide in human plasma for pharmacokinetic studies

Enzymatic hydrolysis with β‐glucuronidase/sulfatase was used for the enantioselective determination of N‐hydroxymexiletine glucuronide in plasma for pharmacokinetic studies. N‐Hydroxymexiletine glucuronide was determined as the quantity of mexiletine released by hydrolysis (difference between the enantiomeric concentrations of mexiletine obtained with and without hydrolysis). Plasma samples (100 μl) were treated at pH 5.0 with 10 mg of the enzyme (Limpet Acetone Powder type I) for 16 hr at 37°C and extracted at pH 10.4 with diisopropyl ether. Chiral mexiletine discrimination was obtained by reaction with o‐phthalaldehyde/N‐acetyl‐L ‐cysteine, separation of the resulting diastereomers on a C‐18 reversed‐phase column with a mobile phase of methanol–0.05 N acetate buffer, pH 5.5 (6.5:3.5, v/v), and fluorescence detection (λ_ex 350 nm, λ_em 455 nm). The performance characteristics for the enantioselective analysis of mexiletine preceded by enzymatic hydrolysis were recovery ∼90%, quantification limit 1 ng/ml, and linearity up to 1000 ng/ml plasma for both enantiomers. The coefficients of variation obtained in the study of intra‐ and inter‐day precision were respectively 5% and 7% for both enantiomers. The assay was shown to be suitable for a pharmacokinetic study performed in a patient with the arrhythmic form of chronic Chagas' heart disease treated with 200 mg t.i.d. of racemic mexiletine hydrochloride. The high sensitivity of the method allows analysis of only 100 μl plasma. Chirality 11:85–90, 1999. © 1999 Wiley‐Liss, Inc.     

Development and Validation of a Micellar Electrokinetic Chromatography Method for Quantitative Determination of Butenolides in Piper malacophyllum (C. Presl) C. DC.

Introduction – A large number of natural and synthetic compounds having butenolides as a core unit have been described and many of them display a wide range of biological activities. Butenolides from P. malacophyllum have presented potential antifungal activities but no specific, fast, and precise method has been developed for their determination. Objective – To develop a methodology based on micellar electrokinetic chromatography to determine butenolides in Piper species. Methodology – The extracts were analysed in an uncoated fused‐silica capillaries and for the micellar system 20 mmol/L SDS, 20% (v/v) acetonitrile (ACN) and 10 mmol/L STB aqueous buffer at pH 9.2 were used. The method was validated for precision, linearity, limit of detection (LOD) and limit of quantitation (LOQ) and the standard deviations were determined from the standard errors estimated by the regression line. Results – A micellar electrokinetic chromatography (MEKC) method for determination of butenolides in extracts gave full resolution for 1 and 2 . The analytical curve in the range 10.0–50.0 µg/mL (r² = 0.999) provided LOD and LOQ for 1 and 2 of 2.1/6.3 and 1.1/3.5 µg/mL, respectively. The RSD for migration times were 0.12 and 1.0% for peak area ratios with 100.0 ± 1.4% of recovery. Conclusions – A novel high‐performance MEKC method developed for the analysis of butenolides 1 and 2 in leaf extracts of P. malacophyllum allowed their quantitative determined within an analysis time shorter than 5 min and the results indicated CE to be a feasible analytical technique for the quantitative determination of butenolides in Piper extracts. Copyright © 2010 John Wiley & Sons, Ltd.