Analysis of Amaryllidaceae alkaloids from Narcissus by GC-MS and capillary electrophoresis.

Amaryllidaceae are known as ornamental plants, furthermore some species of this family contain galanthamine, an acetylcholinesterase inhibitor approved for the treatment of Alzheimer's disease, and other alkaloids with interesting pharmacological activity. In the present work, the quali- and quantitative analysis of Amaryllidaceae-type alkaloids in the bulbs of Narcissus species is presented using different analytical approaches. Extracts of Narcissus pseudonarcissus cv. Carlton and Narcissus jonquilla Quail, were first examined by GC-MS using a Rtx-5 MS (programmed temperature) and the major alkaloids were identified. Together with galanthamine, high contents of haemanthamine, were found. Galanthamine was reliably quantified by GC-MS, whereas haemanthamine partly decomposed under the GC conditions, thus alternative analytical methods were investigated. Firstly, reversed-phase HPLC-ESI-MS was applied to identify and isolate at semipreparative levels haemanthamine. The compound was fully characterized by MS/MS and (1)H NMR and then used as a reference substance. The quantitation of both galanthamine and haemanthamine was then accomplished by capillary electrophoresis with spectrophotometric detection. A non-aqueous (NACE) approach was selected in order to use a running buffer fully compatible with samples in organic solvent. In particular, a mixture methanol-acetonitrile (75:25, v/v) containing ammonium acetate (90 mM) was used as a background electrolyte. The same analytical sample was subjected to GC-MS and NACE analysis; the different selectivity displayed by these techniques allowed different separation profiles that can be useful in phytochemical characterization of the extracts. The GC-MS and NACE methods were validated and applied to the quantitation of galanthamine (GC-MS and NACE) and haemanthamine (NACE) in bulbs of N. jonquilla.

Liquid chromatography-tandem mass spectrometry for the identification of impurities in d-allethrin samples.

A previous GC/MS study highlighting the impurity profile of the synthetic pesticide d-allethrin is extended here to validate and confirm the impurities identity through the development of soft ionisation HPLC-MS methods. To accomplish this, we developed a reverse phase LC-MS analysis in gradient elution with two distinct soft ionisation techniques, the atmospheric pressure ionisation with electrospray source (API-ESI) and the chemical ionisation (APCI). A single quadrupole and an ion trap, which allowed the simultaneous determination of the molecular masses and structural information of the impurities by acquisition of collisionally induced (CID) product ions spectrum and in-source fragmentation, were employed as analysers. Single quadrupole and ion trap analysers resulted perfectly matching in the d-allethrin impurity fragmentation patterns. All the main impurities over 0.1% identified by GC/MS were confirmed. Results indicate that the proposed HPLC/MS method was found appropriate to confirm the presence of impurities such as chrysolactone, chloro allethrin derivatives, allethrolone and chrysanthemic acid, excluding their formation under GC/MS strong ionisation condition.

HPLC-DAD and LC-ESI-MS analysis of doxycycline and related impurities in doxipan mix, a medicated premix for incorporation in medicated feedstuff.

HPLC-DAD and LC-ESI-MS methods have been developed for the analysis of doxycycline (DOX), including the identification of the related impurities metacycline (MTC) and 6-epidoxycycline (EDOX) and its determination in a medicated premix. The chromatographic separations have been performed on Luna C18 stationary phase and on Synergi (4 microm) Polar-RP 80A, using both acidic (pH 2.5) and basic (pH 8.0) mobile phases. The Synergi Polar-RP column, in combination with a mobile phase of oxalic acid (0.02 M; pH 2.5)-acetonitrile 82:18 (v/v), allowed the complete separation of MTC, EDOX and DOX. The same separation was also obtained using Luna C18 stationary phase with a pH 8 mobile phase. Application of a LC-ESI-MS system and MS/MS analysis, using both positive and negative polarity, allowed the peak identity to be confirmed. A method based on Luna C18 column and UV detection at 346 nm was validated for the determination of DOX in a medicated premix for incorporation in medicated feedstuff.

Choosing the right chromatographic support in making a new acetylcholinesterase-micro-immobilised enzyme reactor for drug discovery.

The aim of the present study was to optimize the preparation of an immobilized acetylcholinesterase (AChE)-based micro-immobilized enzyme reactor (IMER) for inhibition studies. For this purpose two polymeric monolithic disks (CIM, 3 mm x 12 mm i.d.) with different reactive groups (epoxy and ethylendiamino) and a packed silica column (3 mm x 5 mm i.d.; Glutaraldehyde-P, 40 microm) were selected as solid chromatographic supports. All these reactors were characterized in terms of rate of immobilization, stability, conditioning time for HPLC analyses, optimum mobile phase and peak shape, aspecific interactions and costs. Advantages and disadvantages were defined for each system. Immobilization through Schiff base linkage gave more stable reactors without any significant change in the enzyme behaviour; monolithic matrices showed very short conditioning time and fast recovery of the enzymatic activity that could represent very important features in high throughput analysis and satisfactory reproducibility of immobilization yield. Unpacked silica material allowed off-line low costs studies for the optimization of the immobilization step.

Stereoselective determination of allethrin by two-dimensional achiral/chiral liquid chromatography with ultraviolet/circular dichroism detection.

A two-dimensional achiral/chiral HPLC method with circular dichroism (CD) detection was optimized for the stereochemical resolution and determination of the elution order of the eight stereoisomers of synthetic allethrin. A monolithic silica HPLC column (Chromolith, Merck, 100 mm x 4.6 mm i.d.) was put orthogonally to an enantioselective OJ Daicel column (250 mm x 4.6 mm i.d.) by means of a switching valve. The resolution of cis and trans diastereoisomers on the silica column was obtained by using a mobile phase consisting of n-hexane:tert-butyl methyl ether (96:4) (v/v) at a flow rate of 1 ml min(-1). The cis and trans peaks were then switched to the enantioselective OJ column separately in two subsequent injections. The resolution of the four trans stereoisomers was accomplished by using n-hexane:tert-butyl methyl ether (90:10) (v/v), while the mobile phase composition for the four cis stereoisomers consisted of n-hexane:isopropanol (99.3:0.7) (v/v). The CD based detection system allowed the determination of the elution order on the basis of the CD signals of the single stereoisomers, together with the injection of pure stereoisomers. Under the final conditions, the validated method was applied to the determination of stereoisomeric composition and absolute configuration of the prevailing stereoisomers of real samples, i.e. commercial batches of different sources of d-allethrin.

Photostability studies on nicardipine-cyclodextrin complexes by capillary electrophoresis.

Nicardipine (NC)-cyclodextrin solid systems were prepared in equimolar ratios and their photostability in aqueous solution under exposure to UV(A)-UV(B) radiations was evaluated. The photodegradation process was monitored by a capillary electrophoresis (CE) method able to provide the enantioresolution of the rac-nicardipine. Enantioresolution was achieved using the mixture 3.0% sulfate-beta-cyclodextrin (SbetaCD) and 2.0% heptakis(2,3,6-tri-O-methyl)-beta-cyclodextrin (TMbetaCD) as chiral selector in 20mM triethanolammonium phosphate solution (pH 3.0). The photostability studies were carried out on inclusion complexes of rac-nicardipine with alpha-cyclodextrin (alphaCD), beta-cyclodextrin (betaCD), gamma-cyclodextrin (gammaCD), hydroxypropyl-alpha-cyclodextrin (HPalphaCD), hydroxypropyl-beta-cyclodextrin (HPbetaCD), hydroxypropyl-gamma-cyclodextrin (HPgammaCD), (2-hydroxyethyl)-beta-cyclodextrin (HEbetaCD) and methyl-beta-cyclodextrin (MbetaCD). A photoprotective effect was observed by betaCD, HPalphaCD, HEbetaCD, whereas gammaCD, MbetaCD, HPbetaCD and HPgammaCD did not affect the nicardipine photostability. Conversely, alphaCD was found to favour the drug photodegradation. Evidences for CDs-mediated stereoselective photodegradation of rac-nicardipine were observed only for the beta-CD complex. In this case, two distinct photodegradation profiles, with two different kinetic constants (k), were observed for the nicardipine enantiomers.

Monolithic micro-immobilized-enzyme reactor with human recombinant acetylcholinesterase for on-line inhibition studies.

The development and characterization of a human recombinant acetylcholinesterase (hrAChE) micro-immobilized-enzyme reactor (IMER), prepared by using an in situ immobilization procedure is reported. hrAChE was covalently immobilized on an ethylenediamine (EDA) monolithic convective interaction media (CIM) disk (12 mm x 3 mm i.d.), previously derivatized with glutaraldehyde. The optimal conditions for the immobilization were: 12 microg of enzyme dissolved in 800 microl of phosphate buffer (50 mM, pH 6.0). The mixture was gently agitated overnight at 4 degrees C. The resulting Schiff bases were reduced by cyanoborohydride and the remaining aldehydic groups were condensed with monoethanolamine. Under these conditions, 0.22 U of hrAChE were immobilized with retention of 3.0% of the initial enzymatic activity. The activity of the immobilized hrAChE was stable for over 60 days. The activity and kinetic parameters of the hrAChE micro-IMER were investigated by inserting the micro-IMER in a HPLC system and it was demonstrated that the enzyme retained its activity. The micro-IMER was characterized in terms of units of immobilized enzyme and best conditions for immobilization yield. IMERs were compared for their relative enzyme stability, immobilized units, yield and aspecific matrix interactions. The effect of AChE inhibitors was evaluated by the simultaneous injection of each inhibitor with the substrate. The relative IC50 values were found in agreement with those derived by the conventional kinetic spectrophotometric method. In comparison with previously developed AChE-based IMERs, AChE monolithic micro-IMER showed advantages in terms of reduction of analysis time (2 min), lower aspecific matrix interactions and lower backpressure. Included in a HPLC system, it can be used for the rapid screening of new compounds' inhibitory potency. The advantages over the conventional methods are the increased enzyme stability and system automation which allows a large number of compounds to be analyzed in continuous.

Photostability studies on the furosemide-triamterene drug association.

The photostability of the diuretic drugs triamterene and furosemide, individually and combined, was evaluated. Spectrophotometric, spectrofluorimetric and chromatographic (HPLC) methods were applied to monitor the drug photodegradation. Furosemide was confirmed to be highly photolable in both pH 7.4 solution and methanol. Differently triamterene proved to be highly fluorescent (emission quantum yield: 0.9 in methanol and 0.8 in pH 7.4 solution), but essentially photostable (photochemical reaction quantum yield: congruent with 5 x 10(-4)) under exposure at 365 and 313 nm radiations. When the combined drugs in pH 7.4 solutions were exposed to 365 nm radiations a significant photoprotective effect of triamterene on furosemide was observed. The photoreactivity of the drugs was exploited to develop an HPLC method involving a post-column on-line photochemical derivatization useful to confirm the analyte identity in a commercial dosage form (tablets). The commercial product, containing the combined drugs, proved to be photostable also after long (65 h) light exposure.

Analytical methods for the determination of folic acid in a polymeric micellar carrier.

Amphiphilic copolymers have been the object of growing scientific interest due to their ability to form polymeric micelles in aqueous environments entrapping lipophilic drugs in their inner core. In this study, polyvinylalcohol substituted with oleic acid was employed as an amphiphilic micellar carrier for folic acid (FA), a model drug similar for its chemical-physical characteristics to methotrexate. In order to investigate the stability of the polymeric micelles, the drug incorporation and the kinetic aspects of drug release from these systems, selective analytical methods are required. The development of three analytical methods suitable for selectively identifying and reliably determining FA contained in the micelles and in the delivery systems is reported. UV derivative (first and second order) spectrophotometry was first applied to the aqueous solution of the FA containing micelles obtained at pH 9.0 and provided a characteristic spectral profiling with sharp peaks, related to the analyte, whose amplitude was used for quantitative application. A second approach involved a solid phase extraction (strong anion exchanger), which provided an effective clean up of the FA micelles solution, allowing accurate analysis to be performed also by a conventional spectrophotometric method. A RP-HPLC method, selectively supplying the FA separation from the micelles' components, was then used as a reference method to determine the accuracy of the spectrophotometric methods. These methods were applied to various micelle composition and to the delivery system study.

Photomutagenic properties of terfenadine as revealed by a stepwise photostability, phototoxicity and photomutagenicity testing approach.

Administration of the second-generation antihistamine, terfenadine, is sometimes associated with photosensitivity and other skin reactions. To obtain information on its photoreactivity, we used a stepwise experimental approach involving tests for photostability, phototoxicity (PT) (mouse fibroblast cell line [3T3] neutral red uptake [NRU] test) and photomutagenicity (with standard Ames salmonella tester strains TA98, TA100 and TA102). Terfenadine was not phototoxic to cultured mammalian cells under the conditions used (i.e. 5000/161 mJ cm(-2) UVA-UVB). Natural sunlight and UV radiations caused considerable drug decomposition and formation of several photoproducts. Addition of the irradiated terfenadine solution (i.e. a mixture of photoproducts) to the tester did not significantly increase background mutation frequency. Irradiation of terfenadine coplated with the TA102 strain induced a clear-cut photomutagenic response, the magnitude of which was dependent upon the precursor compound concentration and the UV dose (212/7 to 339/11 mJ cm(-2) UVA-UVB). These findings demonstrate that in vitro terfenadine is photomutagenic in absence of PT. Further in vitro and in vivo studies are therefore needed to provide an adequate safety assessment of the photochemical genotoxicity--carcinogenicity potential of terfenadine. In the meantime, patients should be advised to avoid excessive exposure to sunlight.

Prostaglandin E(1)-based vasoactive cocktails in erectile dysfunction: how environmental conditions affect PGE(1) efficacy.

INTRODUCTION: The chemical stability of prostaglandin E(1) (PGE(1)) in physiological solution has been studied in different environmental conditions. However, very little data exist regarding the PGE(1) stability and the consequent breakdown products in PGE(1)-based vasoactive cocktails under different environmental conditions. OBJECTIVE: To evaluate the loss of the therapeutic efficacy of PGE(1) either alone or in combination with other vasoactive substances under different storage conditions. MATERIALS AND METHODS: Utilizing high performance liquid chromatography the PGE(1) content was evaluated alone and in association with papaverine and papaverine plus phentolamine at temperatures of 2-8 and at 20 degrees C, and after 15, 30, 60, 90 and 120 days of storage using multivariate statistical analysis of variance. RESULTS: We found that the time of storage significantly affects PGE(1) activity. Furthermore, both the storage temperature and cocktail composition had a significant effect on PGE(1) stability. The chromatographic studies did not disclose the presence of the principal degradation products of PGE(1) (PGA(1), PGB(1)). The presence of papaverine and temperature of 20 degrees C have the greatest effect on the degradation of PGE(1 )during the first 30 days of storage. DISCUSSION: Temperature and time are prevalent factors determining the slow and progressive deterioration curve of PGE(1) after 30 days of storage. None of the environmental conditions evaluated was so drastic to determine the presence of PGA(1) and PGB(1). CONCLUSION: For clinical use, one should note that PGE(1) maintains 50-80% of its efficacy for about 1 month even if stored at room temperature (20 degrees C) and/or combined with papaverine.

Use of an immobilised human serum albumin HPLC column as a probe of drug-protein interactions: the reversible binding of valproate.

The reversible binding of valproate to human serum albumin determines a decrease of the binding of ligands that selectively bind to site I, site II, and bilirubin binding site. The binding inhibition was followed by displacement chromatography methodology using increasing concentrations of the competitor, i.e. valproate, in the mobile phase. Significant binding inhibition was observed for drugs binding at site I and site II. The greater displacement was observed for the more retained enantiomer of benzodiazepines and profens. A reduction of the affinity was observed also in the case of phenol red, this compound being selected as representative of bilirubin binding site. Difference circular dichroism spectroscopy was also used to characterise the binding of valproate to human serum albumin. This antiepilectic drug was proved to affect the binding at site I, II, and bilirubin binding site. The data have physiological relevance because significant inhibition of the binding resulted at clinic concentrations of valproate.

Photodegradation studies on lacidipine in solution: basic experiments with a cis-trans reversible photoequilibrium under UV-A radiation exposure.

The photostability of Lacidipine, a dihydropyridine drug used in the treatment of mild and moderate hypertension, was studied in solutions exposed to UV-A radiations. The effects of the solvent (ethanol, acetone, dichloromethane), drug concentration and radiation wavelength on the drug photostability were evaluated. Lacidipine and its photoproducts were separated by a selective liquid chromatographic (HPLC) method, under normal phase conditions (CN-column), using n-hexane:ethanol 97:3 (v/v) as mobile phase, at a flow rate of 2.0 ml/min. The main photodegradation products were isolated and characterised and a photodegradation pathway was proposed for Lacidipine in solution. The cis-isomer and a photocyclic isomer proved to be the main photodegradation products.

Acetylcholinesterase inhibitors: SAR and kinetic studies on omega-[N-methyl-N-(3-alkylcarbamoyloxyphenyl)methyl]aminoalkoxyaryl derivatives.

In this work, we further investigated a class of carbamic cholinesterase inhibitors introduced in a previous paper (Rampa et al. J. Med. Chem. 1998, 41, 3976). Some new omega-[N-methyl-N-(3-alkylcarbamoyloxyphenyl)methyl]aminoalkoxyaryl analogues were designed, synthesized, and evaluated for their inhibitory activity against both acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE). The structure of the lead compound (xanthostigmine) was systematically varied with the aim to optimize the different parts of the molecule. Moreover, such a structure-activity relationships (SAR) study was integrated with a kinetic analysis of the mechanism of AChE inhibition for two representative compounds. The structural modifications lead to a compound (12b) showing an IC(50) value for the AChE inhibition of 0.32 +/- 0.09 nM and to a group of BuChE inhibitors also active at the nanomolar level, the most potent of which (15d) was characterized by an IC(50) value of 3.3 +/- 0.4 nM. The kinetic analysis allowed for clarification of the role played by different molecular moieties with regard to the rate of AChE carbamoylation and the duration of inhibition. On the basis of the results presented here, it was concluded that the cholinesterase inhibitors of this class possess promising characteristics in view of a potential development as drugs for the treatment of Alzheimer's disease.

Evidences of cyclodextrin-mediated enantioselective photodegradation of rac-nicardipine by capillary electrophoresis.

Capillary electrophoresis (CE) was applied to photostability studies on rac-nicardipine, a dihydropyridine chiral drug. CE methods were developed able to provide the enantioresolution of drug and its separation from the photodegradation products. Enantioresolution was achieved using 5% sulfated-beta-cyclodextrin (S-beta-CD) as chiral selector in 20 mM triethanolammonium phosphate solution (pH 3). The photostability studies were carried out on inclusion complexes of rac-nicardipine with beta-cyclodextrin (beta-CD) and (2-hydroxypropyl)-beta-cyclodextrin (HP-beta-CD) in aqueous solutions (pH 7.4 and 5). The CE analysis of the solutions exposed to UV-A and UV-B radiations showed a photoprotective effect by beta-CD; conversely, HP-beta-CD proved to favor the drug photodegradation. Moreover, evidences for CDs-mediated stereoselective photodegradation of rac-nicardipine were obtained. In fact, two distinct photodegradation profiles were observed for the nicardipine enantiomers in the presence of the CDs. The photodegradation was found to follow an apparent first-order kinetics and two different kinetic constants (k) were obtained for the two enantiomers. After exposure to UV-A and UV-B radiations, the solutions contained residual nicardipine with a significant change in the enantiomeric ratio; this effect was depending on the CD used for the inclusion complexation.

Chromatographic (GC-MS, HPLC) and virological evaluations of Salvia sclarea infected by BBWV-I.

Salvia sclarea cultivated at the Herb Garden of Casola-Valsenio (Emilia-Romagna region, Italy) has been found for the first time naturally infected by broad bean wilt fabavirus, serotype I (BBWV-I). Symptomatic plants showed malformed leaves, with chlorotic mosaic followed by yellowing and stunting. BBWV-I was identified by applying virological tests: mechanical inoculations on herbaceous plants, electron microscopy, DAS-ELISA and PAS-ELISA. The essential oil obtained from BBWV-infected material corresponded to 2/3 the quantity of that from healthy material. The GC-MS and HPLC analyses of these oils afforded a comparative analytical profile of the two plant materials attributed to BBWV-I infection. The oils from infected materials showed higher percentages of sesquiterpene hydrocarbons (e.g. germacrene D and beta-caryophyllene), monoterpene alcohols (e.g. alpha-terpineol) and diterpenoids (mainly sclareol). In contrast, lower levels of monoterpene hydrocarbons (e.g. myrcene, limonene and the two ocimene isomers) and the principal components (linalyl acetate and linalool) were observed.

Determination of inhibitors' potency (IC50) by a direct high-performance liquid chromatographic method on an immobilised acetylcholinesterase column.

An immobilised acetylcholinesterase (AChE) stationary phase was prepared by using an in situ AChE immobilisation procedure. A stainless steel column packed with epoxide silica was connected to the HPLC system and the enzyme solution at pH 5.8 was recycled through the column at a flow-rate of 0.5 ml/min for 24 h. The activity of the immobilised AChE was determined by injecting the substrate acetylthiocholine, using as mobile phase 0.1 M phosphate buffer (pH 7.4) containing Ellman's reagent [5,5'-dithio-bis(2-nitrobenzoic acid)] and measuring the area of the obtained peak with UV detection at 412 nm. The effect of AChE inhibitors tacrine, edrophonium and donepezil were evaluated by the simultaneous injection of each inhibitor with the substrate. The resulting decrease in the AChE activity, as expressed by the decrease of the peak area detected at 412 nm, was related to the concentration and potency of the solutes. The obtained IC50 values were compared with those derived by the conventional spectrophotometric method. This immobilized enzyme reactor, included in a chromatographic system, can be used for the rapid screening for new inhibitors allowing for the on-line determination of a compound's inhibitory potency. The advantages over the conventional methods are the increased enzyme stability and system automation which allows a large number of compounds to be analysed continuously.

Determination of 5-aminosalicylic acid related impurities by micellar electrokinetic chromatography with an ion-pair reagent.

A micellar electrokinetic chromatographic (MEKC) method was developed for the quantification of mesalazine or 5-aminosalicylic acid (5-ASA) and its major impurities 3-aminosalicylic acid, salicylic acid, sulfanilic acid and 4-aminophenol. The optimisation of the experimental conditions was carried out considering some important requirements: resolution, reproducibility, detection limits of 0.1% (m/m) or less, short total analysis time. Preliminary investigations employing sodium dodecyl sulfate (SDS) as surfactant did not lead to the necessary resolution of the studied compounds; the addition of tetrabutylammonium bromide (TBAB) to the SDS micellar system resulted in the complete separation of all the compounds. The effects on the separation by several parameters such as TBAB concentration, SDS concentration, background electrolyte pH and concentration, were evaluated. Using a fused-silica capillary (8.5 cm effective length) complete analysis was obtained in a very short time. Under the optimised final conditions [120 mM 3-(cyclohexylamino)-2-hydroxy-1-propanesulfonic acid buffer, pH 10.20, 65 mM SDS in the presence of 55 mM TBAB and 5% methanol] the method was validated for specificity, precision, linearity, limits of detection and quantitation, and robustness: the 5-ASA related impurities can be quantified at least at the 0.1% (m/m) level.

Photostability and phototoxicity studies on diltiazem.

The photostability of diltiazem was studied in aqueous solutions at different pH values. Firstly, the hydrolysis of the drug to desacetyldiltiazem in alkaline medium was evaluated and then the drug photodegradation under exposure to UVA-UVB radiation (solar simulator) was monitored by HPLC methods. The main photoproduct was isolated and characterized as diltiazem-S-oxide on the basis of the NMR and mass spectra. The HPLC method was also applied to the selective analysis of diltiazem in commercial formulations. Tests on mutagenicity and photomutagenicity of the drug were also carried out using Salmonella typhimurium TA 102 strain. In this testing the drug neither was mutagenic nor toxic.