Validated methods for the quantification of biologically active constituents of poplar-type propolis

The validation of rapid, low-cost spectrophotometric procedures for the quantification of the three main groups of bioactive substances (flavones and flavonols, flavanones and dihydroflavonols, and total phenolics) in poplar-type propolis has been performed. A spectrophotometric assay based on the formation of an aluminium chloride complex was applied for the quantification of total flavones and flavonols using galangin as standard. Because of the high amount of flavanones and dihydroflavonols in "poplar type" propolis, the introduction of a distinct procedure for their quantification was considered of special significance and the DAB9 colorimetric method was applied for the purpose. Total phenolic content was measured by the Folin-Ciocalteu procedure using a mixture of pinocembrin and galangin as a reference. The procedures were validated using a model mixture of compounds representing the poplar-type propolis composition as found in previous studies. The accuracy (recovery) varied in the range 84-109%, and the relative standard deviation was 0.5-6.2%. The developed spectrophotometric procedures were applied to six poplar type propolis samples. The results were verified independently by a HPLC procedure. The two sets of results agreed satisfactory, as proven by Student's t-test.     

Prenylated cinnamate and stilbenes from Kangaroo Island propolis and their antioxidant activity

A prenylated cinnamic acid derivative as well as six prenylated tetrahydroxystilbenes were isolated from the ethyl acetate extract of propolis that originated from Kangaroo Island, Australia. Furthermore, six known stilbenes and two known flavanones were also identified from the same sample. Stilbenes are not common in propolis; therefore, Kangaroo Island propolis is considered a unique type of propolis that is rich in prenylated stilbenes. Stilbene propolis from Kangaroo Island showed a stronger scavenging activity towards DPPH free radical than Brazilian green propolis. This strong activity can be explained by the presence of large number of stilbenes, most of them showed strong free radical scavenging activity.     

Quantitative determination of lanostane triterpenes in Fomes officinalis and their fragmentation study by HPLC-ESI

Introduction – The fruit bodies of Fomes officinalis are used for the treatment of coughs, gastric cancer, rheumatism and hydropsia; however, no method is currently available to assess the quality of this medicinal fungus based on quantitative profile of its main triterpenes. Objective – To develop a simple and accurate HPLC‐UV method for the simultaneous quantification of five lanostane‐type triterpenes in the fruit bodies of F. officinalis. Method – Separations were performed on an Agilent Zorbax Eclipse XDB‐C₁₈ column by gradient elution using acetonitrile : formic acid. Analytes were identified by HPLC coupled with electrospray ionisation mass spectrometry experiments. The quantitative HPLC‐UV method was validated for linearity, precision, accuracy and limits of detection and quantification. Results – Calibration curves presented good linear regression (r > 0.9996) within test ranges. The relative standard deviation of this method was less than 1.7% for intra‐ and inter‐day assays and overall recoveries were 96.4–104.1% for the five compounds analysed. The method was successfully applied to the quantification of five triterpenes in 16 samples of F. officinalis collected from different regions. Conclusion – The developed assay could be considered as a suitable quality control method for F. officinalis. Copyright © 2010 John Wiley & Sons, Ltd.     

Comparative quantitative analysis of artemisinin by chromatography and qNMR

Introduction – Since the discovery of artemisinin in the 1970s, many techniques based on diverse chromatography techniques have been developed to detect and quantify this important antiplasmodial compound. The accurate quantification of this compound in the Artemisia annua plant material is mainly needed for breeding purposes in order to cultivate higher yielding varieties. It is also important for the quality control of herbal preparations containing A. annua plant material. Objective – To evaluate the most common validated quantification techniques (LC‐MS, HPLC‐ELSD and TLC) and compare the results to quantitative nuclear magnetic resonance spectroscopy (qNMR) in eight different A. annua samples collected from around the world. Methodology – The leaf material were extracted according to standard procedures and analysed with the validated quantification techniques. For the qNMR analysis we did not employ a standard curve but instead used an internal standard (maleid acid) which is not chemically related to artemisinin. Results – We found a significant difference between the results in this study. Compared with the qNMR results the HPLC‐ELSD corresponded closely, followed by LC‐MS. Quantitation with TLC led to an estimation range of ?0.5 to +3.2 mg artemisinin/g of A. annua. Conclusion – These results imply that qNMR, with the addition of an internal standard, can be used to quantify artemisinin in A. annua samples in a rapid and reproducible manner. Copyright © 2010 John Wiley & Sons, Ltd.     

Optimisation of an extraction procedure and chemical characterisation of Croatian propolis tinctures

Three spectrophotometric methods for the quantitative determination of different flavonoid groups and total phenolics in Croatian propolis samples were optimised and validated. The assay based on the formation of aluminium chloride complex (with galangin as a standard) was applied to the quantification of flavones and flavonols, while the 2,4-dinitrophenylhydrazine method (with pinocembrine as a reference) was used for the quantification of flavanones. Total phenolic content was measured by the Folin-Ciocalteau method using reference solution of caffeic acid:galangin:pinocembrine (1:1:1). Through analytical validation, the most suitable extraction conditions (with respect to time, temperature and concentration of extraction solvent) were determined, and final conditions for the extraction were established (80% ethanol, 1 h at the room temperature). The appropriate ratio between the mass of raw propolis and the extraction solvent volume was also established. By the application of the optimised method of extraction, 10 propolis tinctures were prepared and subjected to the analysis of general pharmacopoeial parameters, which are fundamental for the creation of quality specification (relative density, dry residue of extract, content of ethanol, methanol and 2-propanol). Additionally, the content of waxes as the main inactive constituents was determined in order to observe the level of their migration from crude propolis to the prepared tinctures.     

Validation of a quantitative assay of arbutin using gas chromatography in Origanum majorana and Arctostaphylos uva‐ursi extracts

Introduction – Arbutin is a skin‐whitening agent that occurs naturally in the bark and leaves of various plants. It is commonly quantified in plant extracts and skin‐whitening products by HPLC. Objective – To develop an alternative gas chromatographic method for the separation and quantification of arbutin in Origanum majorana and Arctostaphylos uva‐ursi extracts. Methodology – N,O‐Bis(trimethylsilyl)acetamide and trimethylchlorosilane were used as silylation reagents, and the gas chromatographic separation of silylated extracts and standards was performed using a DB‐5 narrow bore column. GC‐MS was used for the compound identification, and the quantification was carried out by GC‐FID. The quantitative results were compared with those of HPLC analysis. Results – The developed method gave a good sensitivity with linearity in the range 0.33–500 mg/mL and recovery >98%, allowing the quantification of arbutin in O. majorana and A. uva‐ursi extracts. The relative standard deviations (RSD) relating to intra‐day and inter‐day precision were <0.002% and <4.8%, respectively. The GC results correlated well with those obtained by HPLC analysis. Conclusion – The analysis of marjoram and bearberry samples showed that the established GC method was rapid, selective, and demonstrated that arbutin could be screened alternatively by gas chromatography. Copyright © 2009 John Wiley & Sons, Ltd.     

A qualitative and quantitative HPTLC densitometry method for the analysis of cannabinoids in Cannabis sativa L.

Introduction – Cannabis and cannabinoid based medicines are currently under serious investigation for legitimate development as medicinal agents, necessitating new low‐cost, high‐throughput analytical methods for quality control. Objective – The goal of this study was to develop and validate, according to ICH guidelines, a simple rapid HPTLC method for the quantification of Δ⁹‐tetrahydrocannabinol (Δ⁹‐THC) and qualitative analysis of other main neutral cannabinoids found in cannabis. Methodology – The method was developed and validated with the use of pure cannabinoid reference standards and two medicinal cannabis cultivars. Accuracy was determined by comparing results obtained from the HTPLC method with those obtained from a validated HPLC method. Results – Δ⁹‐THC gives linear calibration curves in the range of 50–500 ng at 206 nm with a linear regression of y = 11.858x + 125.99 and r² = 0.9968. Conclusion – Results have shown that the HPTLC method is reproducible and accurate for the quantification of Δ⁹‐THC in cannabis. The method is also useful for the qualitative screening of the main neutral cannabinoids found in cannabis cultivars. Copyright © 2009 John Wiley & Sons, Ltd.     

A New Type of Anatolian Propolis: Evaluation of Its Chemical Composition,Activity Profile and Botanical Origin

This study was undertaken to analyze the phenolic profiles of 19 propolis samples from Turkey by using a high‐performance thin‐layer chromatographic (HPTLC) method in order to identify their plant origins. Furthermore, their antioxidant and antimicrobial activity profiles were comparatively evaluated. For the appraisal of antioxidant potential, total phenolic (TPC) and total flavonoid contents (TFC) of propolis samples were firstly determined and then their effects on free radicals were evaluated by FRAP, ABTS^.+, CUPRAC, DPPH^. and HPTLC‐DPPH^. methods. Antimicrobial activity of propolis samples against Staphylococcus aureus (ATCC 6538), Pseudomonas aeruginosa (ATCC 15442), Escherichia coli (ATCC 11229) and Candida albicans ATCC 10231 were determined by disc diffusion and broth dilution methods. HPTLC fingerprinting analyses revealed that O‐type (botanical origin from Populus nigra L.) was the primarily available propolis type in Turkey. Moreover, 3‐O‐methylquercetin (3MQ) rich propolis was identified as a new propolis type for the first time. Principal component analysis (PCA) indicated that 3MQ‐type propolis differs from the O‐type. Antioxidant activity studies showed that O‐type of propolis possesses higher antioxidant effect than the other tested propolis types. Quercetin, caffeic acid, caffeic acid phenethyl ester (CAPE) and galangin were determined to contribute significantly to the antioxidant potential of O‐type propolis among others. Propolis extracts exerted moderate antimicrobial activity against the tested microorganisms with MIC values between the ranges of 128–512 μg/mL.     

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.     

Lavandulyl Flavanones from the Stems of Hypericum calycinum L.

One novel lavandulyl flavanone (=2,3‐dihydro‐2‐phenyl‐4H‐1‐benzopyran‐4‐one) with an unusual 5,2′,4′,6′‐tetrahydroxy substitution, calycinigin A ( 1 ), was isolated from the stems of Hypericum calycinum L. (Hypericaceae). The structure was elucidated on the basis of 1D‐ and 2D‐NMR analysis, as well as mass spectrometry (LR‐EI‐ and HR‐EI‐MS) and circular dichroism. Three known lavandulyl flavanones with 5,7,2′,4′,6′‐pentahydroxy substitution, i.e., 2 – 4 , were also isolated. Chemosystematically, this is the first report on the occurrence of prenylated flavanones in the family Hypericaceae. Reduction of cell viability by all compounds was evaluated in a MTT (=3‐(4,5‐dimethylthiazol‐2‐yl)‐2,5‐diphenyl‐2H‐tetrazolium bromide) assay using HeLa cells. Compound 1 showed moderate activity with an IC₅₀ value of 9.7±1.8 μM , whereas compounds 2 – 4 were less active exhibiting IC₅₀ values of 11.6±0.9, 19.3±1.5, and 40.7±2.4 μM , respectively. The antioxidant activity was evaluated by an ORAC (Oxygen Radical Absorbance Capacity) assay, and calycinigin A ( 1 ) was again the most active compound with a Trolox equivalent of 2.3±0.2. None of the compounds was able to reduce the TNF‐α induced ICAM‐1 expression in vitro using human microvascular endothelial cells (HMEC‐1).     

Qualitative analysis and simultaneous quantification of phenolic compounds in the aerial parts of Salvia miltiorrhiza by HPLC-DAD and ESI/MS(n)

Introduction – The increasing demands of roots and rhizomes of Salvia miltiorrhiza almost exhausted the wild Salvia sources in China. However, the content and composition of phenolic acids in the aerial parts of the plant and their potential to be used as a substitute has not been explored. Objective – To evaluate the potential of the aerial parts of Salvia miltiorrhiza as new natural sources of phenolic acids. Methodology – HPLC coupled with diode array detection (DAD) and electrospray ionization multistage mass spectrometry (ESI/MSⁿ) has been used for qualitative and quantitative analysis of phenolic compounds. Results – A total of 38 phenolic compounds were identified or tentatively characterized. A quantitative HPLC‐DAD method allowing the simultaneously quantification of six phenolic acids was optimized and validated for linearity, precision, accuracy, and limits of detection and quantification. Calibration curves showed good linear regression (r² > 0.9991) within test ranges; the recoveries ranged between 95.64 and 101.67% and the RSDs were less than 3.01%. Conclusion – The developed methods have been proved to be effective for the identification and quantification of phenolic acids in S. miltiorrhiza. The results obtained suggest that the aerial parts of the plant could be used as an alternative source of sage phenolics. Copyright © 2010 John Wiley & Sons, Ltd.     

Comparison of three different extraction methods and HPLC determination of the anthraquinones aloe‐emodine,emodine, rheine,chrysophanol and physcione in the bark of Rhamnus alpinus L. (Rhamnaceae)

Introduction – Rhamnus alpinus L. (Rhamnaceae), a traditional plants in the flora of the Abruzzo region, is known to contain active anthraquinone secondary metabolites. However, the content of anthraquinones varies among R. alpinus samples depending on collection season and site. Thus, using simple, reliable and accurate analytical methods for the determination of anthraquinones in R. alpinus extracts allows comparative study of different methods of extraction. Objective – After a partial validation of an HPLC method for the simultaneous determination of five anthraquinones, aloe‐emodine, rheine, emodine, chrysophanol and physcione, in the bark of R. alpinus, we compared three different methods of extraction. Methodology – Anthraquinones were extracted from the bark of R. alpinus using different techniques (methanol maceration, ultrasonic and supercritical CO₂ extraction). Separation and quantification of anthraquinones were accomplished using a reversed‐phase C₁₈ column with the mobile phase of H₂O–methanol (40 : 60, v/v, 1% formic acid) at a wavelength of 254 nm. The qualitative analyses were also achieved at wavelength of 435 nm. Results – All calibration curves were linear over the concentration range tested (10–200 mM) with the determination coefficients ≥0.991. The detection limits (S/N = 3) were 5 mM for each analytes. All five anthraquinones were found in the samples tested at concentrations reported in experimental data. Conclusion – The described HPLC method and optimised extraction procedure are simple, accurate and selective for separation and quantification of anthraquinones in the bark of R. alpinus and allow evaluation of the best extraction procedure between the tested assays. Copyright © 2009 John Wiley & Sons, Ltd.     

Cytotoxic Activities and Anti‐Tumor‐Promoting Effects of Microbial Transformation Products of Prenylated Chalcones from Angelica keiskei

Three prenylated chalcones, 4‐hydroxyderricin ( 1 ), xanthoangelol ( 2 ), and xanthoangelol F ( 3 ), isolated from Angelica keiskei, were transformed by the fungus Aspergillus saitoi. These chalcones were converted to flavanones (i.e., 4, 8 , and 12 ), and prenyl‐chain‐hydrated (i.e., 5, 7, 9 – 11 , and 13 ) and ring‐B‐hydroxylated (i.e., 6 ) chalcones. The structures of three new metabolites, 7, 9 , and 13 , were established as 2″,3″‐dihydro‐4,3″‐dihydroxyderricin, 6″,7″‐dihydro‐7″‐hydroxyxanthoangelol, and 6″,7″‐dihydro‐7″‐hydroxyxanthoangelol F, respectively. Upon evaluation of cytotoxic activities of compounds 1 – 13 , the metabolite 7 exhibited potent cytotoxicity against HL60 cells, and this cell death was revealed to be mostly due to apoptosis. In addition, compounds 1 – 4, 7 – 10, 12 , and 13 were examined for their inhibitory effects on the induction of Epstein? Barr virus early antigen (EBV‐EA) by 12‐O‐tetradecanoylphorbol‐13‐acetate (TPA) in Raji cells. All compounds tested showed inhibitory effects against EBV‐EA activation with potencies higher than that of β‐carotene. Furthermore, the metabolite 13 exhibited inhibitory effect on skin tumor promotion in an in vivo two‐stage mouse skin carcinogenesis test based on 7,12‐dimethylbenz[a]anthracene (DMBA) as initiator, and with TPA as promoter.     

Optimisation of a microwave-assisted method for extracting withaferin A from Withania somnifera Dunal. using central composite design

Introduction – Recently, there have been growing attention on the modification and optimisation of new extraction and quantification methods, caused by the lack of environmentally friendly methodologies for the extraction of phytochemicals from complex matrices. In the case of pharmaceutical compounds, not only the extraction procedure but also the analysis method should be efficient, precise, fast and easy. Objectives – The essential pharmaceutical characteristics and trace concentration of withanolides led us to modify and optimise the previously reported extraction and quantification procedure for withaferin A (WA) as a candidate for withanolides. Matrial and methods – The WA from the air‐dried aerial part of Withania somnifera Dunal. was extracted using a microwave‐assisted extraction (MAE) technique. Four variables affecting the extraction procedure were optimised using the central composite design approach. The method of high‐performance thin‐layer chromatography assay was validated and applied for the quantification of each experiment. Results – The optimum values of factors were: extraction time (150 s), extraction temperature (68°C) and 17 mL of methanol : water in the ratio 25 : 75 as extracting solvent. The solvent system consisted of ethyl acetate : toluene : formic acid : 2‐propanol (7.0 : 2.0 : 0.5 : 0.5, v/v/v/v), and densitometric scanning at 220 nm was applied for the analysis. The dynamic linear range, LOD, LOQ and recovery with the inter‐day, and intra‐day RSDs of the developed method indicated the validity of the method. Conclusion – A pressurised MAE method for extracting WA from the plant's aerial part was optimised using factorial‐based design. The net effect of time, temperature, solvent volume and its ratio suggests that the yield of WA increases until each factor reaches its optimum value, and decreases with further increase in temperature or solvent ratio. Copyright © 2010 John Wiley & Sons, Ltd.     

Simultaneous Chiral Separation of Flavanone,Naringenin, and Hesperetin Enantiomers by RP‐UHPLC‐DAD

A rapid and effective RP‐UHPLC‐DAD method for enantioseparation of three flavanones, i.e., flavanone, naringenin, and hesperetin, was developed and validated. Chromatographic separation of the analytes was performed using a Chiralpak AD‐3R analytical column under reverse phase conditions with methanol as the mobile phase. The method was validated in the concentration range of 0.2 to 50 µg/mL for enantiomers of flavanone and 0.5 to 50 µg/mL for enantiomers of naringenin and hesperetin. The limits of quantification were between 0.03 to 0.5 µg/mL. Intraday and interday precision were below 14% and accuracy varied from 0.04 to 8.17%. Chirality 28:147–152, 2016. © 2015 Wiley Periodicals, Inc.     

Phytochemical Findings Evidencing Botanical Origin of New Propolis Type from North‐West Argentina

Propolis samples from north‐west Argentina (Amaicha del Valle, Tucumán) were evaluated by palynology, FT‐IR spectra, and RP‐HPTLC. In addition, the volatile fraction was studied by HS‐SPME‐GC/MS. The botanical species most visited by Apis mellifera L. near the apiaries were collected and their RP‐HPTLC extracts profiles were compared with propolis samples. In addition, GC/MS was performed for volatile compounds from Zuccagnia punctata Cav. (Fabaceae). FT‐IR spectra and RP‐HPTLC fingerprints of propolis samples showed similar profiles. In RP‐HPTLC analyses, only Z. punctata presented a similar fingerprint to Amaicha propolis. The major volatile compounds present in both were trans‐linalool oxide (furanoid), 6‐camphenone, linalool, trans‐pinocarveol, p‐cymen‐8‐ol, and 2,3,6‐trimethylbenzaldehyde. Potential variations for the Amaicha del Valle propolis volatile fraction as consequence of propolis sample preparation were demonstrated.     

Validated Method for the Quantification of Atractylenolide III in Different Processed Products of Rhizoma Atractylodes Macrocephalae

Introduction – Rhizoma Atractylodes Macrocephalae (RAM) contains several sesquiterpene compounds including atractylenolide III (AO‐III). This bioactive compound may be used as a chemical marker for the quality control of different processed RAM products. Objective – To develop and validate an RP‐HPLC method for the quantitative determination of AO‐III in RAM and in a variety of processed RAM products. Methodology – HPLC was carried out using a Kromssil C₁₈ RP‐column eluted with methanol–water (70:30) at a flow rate of 1.0 mL/min and with UV detection at 220 nm. Full validation was performed using standard methods. Results – The linear range of AO‐III was 5–50 µg/mL; the regression equation was y = 10210x + 11194 (r = 0.9994) and the average recovery was 101.08% (RSD = 0.98%). The detection and quantification limits for AO‐III were determined to be 0.005 and 0.018 µg/mL at signal‐to‐noise ratios of approximately 3:1 and 10:1, respectively. Conclusion – The described HPLC method is appropriate for quality assurance and differentiation of AO‐III in RAM and different processed products.     

Egyptian propolis: 1-antimicrobial activity and chemical composition of Upper Egypt propolis

The antimicrobial activity of four propolis samples collected from Upper Egypt against Staphylococcus aureus; Escherichia coli and Candida albicans was evaluated. There was a variation in the antimicrobial activity according to the propolis origin. Banisweif propolis showed the highest antimicrobial activity against Staphylococcus aureus, Escherichia coli and Candida albicans, but Fayoum propolis had moderate activity against all tested pathogens. Propolis collected from Assiut and Souhag gave lower antimicrobial activity. Propolis samples were investigated by GC/MS, 71 compounds were identified, 14 being new for propolis. Banisweif propolis is characterized by the presence of 7 caffeate esters and 4 triterpenoids. Fayoum propolis showed the highest amount of lactic acid and the presence of 3 chalcones. But Assiut propolis is characterized by the presence of 4 prenylated coumarates. Souhag propolis is characterized by the presence of 5 aliphatic dicarboxylic acids and some other new compounds to propolis.     

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.     

Rapid screening of lignans from Phyllanthus myrtifolius and stilbenoids from Syagrus romanzoffiana by HPLC-SPE-NMR

Introduction – Application of on‐line solid‐phase extraction (SPE) as an interface between HPLC and NMR has gained great improvement in solving sensitivity problems and signal interferences by the eluents. Objective – Rapid analysis and characterisation by HPLC‐SPE‐NMR and LC/MS of the arylnaphthalene‐type lignans present in Phyllanthus myrtifolius and the minor stilbenoids present in the polyphenol‐rich fraction from the ethanol extract of the seeds of Syagrus romanzoffiana. Methodology – Pretreatment of fractions by liquid–liquid partitioning, followed by Sephadex LH‐20 fractionation, was found very useful to facilitate the focusing and analysis of the polyphenolic fraction. HPLC‐DAD‐SPE‐NMR (400 MHz and 600 MHz) analysis was carried out using an Agilent 1100 liquid chromatography, followed by a Prospekt 2 automated solid‐phase extraction unit, containing 96 HySphere‐Resin GP cartridges (10 × 2 mm, 10–12 µm), which was connected to a 120 or 60 µL LC probe. Results – Seven arylnaphthalene‐type lignans from the chloroform‐soluble fraction of P. myrtifolius and nine stilbenoids from a polyphenol‐rich butanol‐soluble fraction of the seeds of S. romanzoffiana were characterised. Conclusion – HPLC‐SPE‐NMR associated with HR‐ESI/MS, which consumed only analytical amounts of partially purified mixtures, was demonstrated to be a good tool for rapid screening of both known and new natural products. Copyright © 2011 John Wiley & Sons, Ltd.