Thin-layer chromatographic fingerprinting of the nonvolatile fraction extracted from the medicinal herb Cistus incanus L.

ABSTRACT

The aim of this study was to provide the first from-start-to-end thin-layer chromatographic method of fingerprinting the Cistus incanus L. raw herbal material, with a purpose to further use it for rapid screening, authentication, and quality control of the traded C. incanus L. herbs. To this effect, 12 different C. incanus L. samples purchased as herbal teas from a local market were extracted by means of the accelerated solvent extraction (ASE) with chemometrically optimized solvent extraction mixture and temperature (methanol–water, 27:73, v/v; 130°C), to derive the polar fraction from the plant samples. Then, the extracts were developed in two thin-layer chromatographic systems, both using the commercially precoated silica gel 60 chromatographic plates, yet two different mobile phases (mobile phase 1, ethyl acetate–formic acid–acetic acid–water, 100:11:11:13, v/v/v/v, and mobile phase 2, ethyl acetate–dichloromethane–formic acid–acetic acid–water, 100:10:10:10:11, v/v/v/v/v). The chromatograms were densitometrically scanned in the reflectance mode at the wavelength λ?=?366?nm to obtain fingerprints of the extracts derived from individual C. incanus L. samples. Mobile phase 2 performed slightly better, because with its use, the maximum number of 11 peaks could be seen in the respective fingerprints, whereas with mobile phase 1, the maximum number of 10 peaks only. Then an antioxidant potential of the investigated herbal extracts was assessed, making use of mobile phase 2 and the 0.20% methanol solution of 2,2-diphenyl picrylhydrazyl as a visualizing reagent. The resulting chromatograms were densitometrically scanned in the extinction mode at the wavelength λ?=?550?nm to obtain biological fingerprints of the extracts. Finally, chromatographic and biological fingerprints underwent a semiquantitative evaluation in terms of the contents of the extracted polar fraction and an overall antioxidant potential of the individual plant species.     

Synthesis of alkyl glycosides from cyclodextrin using cyclodextrin glycosyltransferase from Paenibacillus sp. RB01

Alkyl glycosides have potential use as biodegradable detergents due to their high surface activity with low toxicity. Recent progress in the application of enzymes to the preparation of these surface-active compounds demonstrates the advantages to the chemical synthesis. In this work, alkyl glycosides were, for the first time, synthesized from cyclodextrin (CD) and various soluble alcohols by transglycosylation reaction using cyclodextrin glycosyltransferase (CGTase) from Paenibacillus sp. RB01. Several alcohols (methanol, ethanol, 1-propanol, 2-propanol, 1-butanol and 2-butanol) as glycosyl-acceptor substrates were evaluated. It was found that the reaction products which were analyzed by TLC were maximum for 30% methanol, 20?C30% ethanol, 10?C20% 1-propanol, 10% 2-propanol, 8% 1-butanol and 5?C10% 2-butanol. In addition, the increase in the yield of alkyl glycoside formation was achieved by using methanol as an acceptor. Optimal reaction conditions for methyl glycoside synthesis from CD were to incubate 1.2% (w/v) ??-CD and 240 U/mL of CGTase in a water/methanol system containing 30% (v/v) methanol, pH 6.0 and a temperature of 40???C. At least three main methyl glycoside products were formed having 1?C3 monosaccharide units attached to methanol which were in accordance with the results of MS analysis.     

Preparative separation of capsaicin and dihydrocapsaicin from Capsicum frutescens by high‐speed counter‐current chromatography

Capsaicin and dihydrocapsaicin are two main bioactive components of Capsicum frutescens and are widely used as food additives and drugs in China and India. Due to their similarity in structures, isolation of capsaicin and dihydrocapsaicin with traditional methods such as silica gel column chromatography, normal‐phase thin‐layer chromatography (TLC) becomes difficult. This study involves separating capsaicin and dihydrocapsaicin with sufficient purity and recovery using high‐speed counter‐current chromatography (HSCCC) with a solvent system composed of n‐hexane–ethyl acetate–methanol–water–acetic acid (20:20:20:20:2, v/v/v/v/v). Separation parameters such as sample volume, and sample concentration were first optimized on analytical HSCCC, and then scaled up to preparative HSCCC. 0.65 g capsaicin and 0.28 g dihydrocapsaicin were obtained from 1.2 g crude extract and their purities were 98.5 and 97.8%, respectively. The recoveries of the two compounds were 86.3 and 85.4%, respectively. The purity of the isolated compounds was analyzed by high‐performance liquid chromatography (HPLC) and their structures were identified by ¹H nuclear magnetic resonance (NMR) and ¹³C NMR analysis.     

Simultaneous determination of eight adulterants in weight management supplements and herbs by HPLC–DAD and LC–MS/MS

An efficient HPLC–DAD method was developed for simultaneous determination of eight adulterants in weight management supplements and herbs. The eight adulterants were phenolphthalein, sibutramine, nuciferine, and five anthraquinone compounds including aloe-emodin, rhein, emodin, chrysophanol, and physcion. The analytes were ultrasonically extracted with 70% (v/v) methanol aqueous solution followed by centrifugation. The supernatant was subjected to HPLC analysis. A Phenomenex Luna C18 column was applied for chromatographic separation. The mobile phase was consisted of methanol and aqueous solution of 0.05% (v/v) phosphoric acid–0.025% (m/v) sodium dodecyl sulfonate. The flow rate of mobile phase was 0.8?ml?min^?1 with gradient elution. Clenbuterol and ibuprofen were used as internal standards. The retention times and the characteristic UV spectrograms were used for qualitative analysis. Quantifications were based on the internal standard curves. Good linearities (r?>?0.9996) for all analytes were obtained with the intra- and inter-day precision (n?=?6) ranging from 0.76 to 5.9% and 0.90 to 8.1%, respectively. The average recoveries from the spiked samples with different matrices varied from 73.4 to 114%. Validations were subsequently performed using LC–MS/MS. The proposed method successfully determined the target adulterants in eight commercial weight management supplements and five weight reducing herbs with satisfactory results.     

Simultaneous determination of methotrexate and metoclopramide in physiological fluids using RP-HPLC with ultra-violet detection; application in evaluation of polymeric nanoparticles

Methotrexate (MTX) is an anticancer drug while metoclopramide (MCP) is an antiemetic agent. Both the drugs are commonly coprescribed to avoid the emesis caused by anticancer drug. In this study, a novel, rapid, sensitive, and cost-effective reverse-phase high-performance liquid chromatography method was developed and validated for simultaneous determination of the methotrexate and metoclopramide in biological and pharmaceutical samples using sparfloxacin as internal standard. The analytes were separated on a Kromasil 100-5C18 RP (250?×?4.6?mm, 5?µm) column, methanol, and 0.05% trifloroacetic acid (36:64?v/v) as mobile phase with a flow rate of 1?mL/min, detection wavelength of 290?nm, and column oven temperature at 40°C. Both the analytes were extracted from physiological fluids (bovine aqueous humor, vitreous humor, and human plasma) using mixture of methanol and 10% perchloric acid (50:50 v/v). The method was linear over the concentration range of 0.025–1.0?µg/mL for methotrexate and 0.030–1.0?µg/mL for metoclopramide. The % recovery from human plasma was 98.57 and 96.74% for MTX and MCP, respectively, while from aqueous humor and vitreous humor was 95.84 and 98.51% for MTX.

The developed method was applied for in vitro release of MTX from polymeric nanoparticles and can be applied for analysis of pharmaceutical and biological samples containing both the drugs.     

Reversed-phase high-performance liquid chromatography fingerprint profiles of thirty-nine mosses with chemometric

Thirty-nine land and aquatic mosses were extracted by double maceration and ultrasonic extraction techniques using the mixture of 80% ethanol and water. Obtained extracts were analyzed using the reversed-phase-high-performance liquid chromatography–diode array detector with the Kinetex C18 chromatographic column and mobile phase consisting of acetonitrile–water–0.1% formic acid mixture (gradient 5–100%, 60 min) with detection wavelength of 280 nm. Next, obtained chromatograms were preliminary processed with the smoothing, noise reduction, background subtraction, and alignment using the SpecAlign program (version 2.4.1). The chemometric analysis was performed to obtain the fingerprint chromatograms of selected mosses. The principal component analysis and the cluster analysis (with paired group algorithm and correlation coefficient—r, as similarity measure) confirm the chemical similarity or differences between studied Bryophyta sp.     

Determination of Saikosaponins in Bupleuri Radix by Micellar Electrokinetic Chromatography with Experimental Design

The important pharmacological components of Bupleuri radix include saikosaponins a–d. A multivariable approach with experimental design was employed in this study to determine four saikosaponins in different species of Bupleuri radix by cyclodextrin-modified micellar electrokinetic chromatography. Compared to traditional multiple-parameter investigations, the current experimental design can shorten the time necessary for method development, and the multivariable approach can be used to evaluate the separation capability of the method and to explore the interactions of the different parameters. The significant influences of two experimental variables, including the concentration of γ-cyclodextrin and the percentage of methanol, on the responses were investigated using chromatographic resolution statistics. The optimized conditions were as follows: 25?mM of borate (pH 9.18) containing 50?mM of sodium dodecyl sulfate, 5?mM of γ-cyclodextrin, and 15% methanol (v/v) as running buffer. After the separation conditions were optimized and good resolution was acquired, solid phase extraction was performed to reduce the interference of crude extracts of Bupleurum kaoi and Bupleurum chinense DC. The simple and rapid analytical method was successfully applied, allowing for the determination of four saikosaponins and the identification of species of Bupleuri radix.     

High‐performance liquid chromatographic method for identification and quantification of three potent liver protective coumarinolignoids—cleomiscosin A,cleomiscosin B and cleomiscosin C—in extracts of Cleome viscosa

A simple, rapid, accurate and reproducible reverse‐phase HPLC method has been developed for simultaneous identification and quantification of three coumarinolignoids, cleomiscosin A (Cliv A), cleomiscosin B (Cliv B) and cleomiscosin C (Cliv C) in different extracts of the seeds of Cleome viscosa using photodiode array detection at 326 nm. Cliv A, B and C were separated on a Waters symmetry C₁₈ column (250 × 4.6 mm, 5 μm) using the solvent system consisting of a mixture of acetonitrile : methanol (1:2 v/v) and water : acetic acid (99.5:0.5 v/v) as a mobile phase in a gradient elution mode. The calibration curves were linear in the concentration ranges 15–200, 10–80 and 15–180 μg/mL for Cliv A, Cliv B and Cliv C, respectively. The limits of detection and quantification for Cliv A, Cliv B and Cliv C were 15 and 20 μg/mL, 10 and 15 μg/mL and 15 and 20 μg/mL, respectively. The intra‐day and inter‐day precisions were 2.08 and 0.93% for Cliv A , 1.22 and 0.39% for Cliv B and 1.29 and 0.23 for Cliv C respectively. The developed HPLC method was used to identify and quantify Cliv A, Cliv B and Cliv C in different extracts of seed of Cleome viscosa. Copyright © 2010 John Wiley & Sons, Ltd.     

An efficient combination of supercritical fluid extraction and high‐speed counter‐current chromatography to extract and purify homoisoflavonoids from Ophiopogon japonicus (Thunb.) Ker‐Gawler

Supercritical fluid extraction (SFE) was used to extract homoisoflavonoids from Ophiopogon japonicus (Thunb.) Ker‐Gawler. The optimization of parameters was carried out using an orthogonal test L₉ (3)⁴ including pressure, temperature, dynamic extraction time and the amount of modifier. The process was then scaled up by 100 times with a preparative SFE system under the optimized conditions of 25 MPa, 55°C, 4.0 h and 25% methanol as a modifier. Then crude extracts were separated and purified by high‐speed counter‐current chromatography (HSCCC) with a two‐phase solvent system composed of n‐hexane/ethyl acetate/methanol/ACN/water (1.8:1.0:1.0:1.2:1.0 v/v). There three homoisoflavonoidal compounds including methylophiopogonanone A 6‐aldehydo‐isoophiopogonone A, and 6‐formyl‐isoophiopogonanone A, were successfully isolated and purified in one step. The collected fractions were analyzed by HPLC. In each operation, 140 mg crude extracts was separated and yielded 15.3 mg of methylophiopogonanone A (96.9% purity), 4.1 mg of 6‐aldehydo‐isoophiopogonone A (98.3% purity) and 13.5 mg of 6‐formyl‐isoophiopogonanone A (97.3% purity) respectively. The chemical structure of the three homoisoflavonoids are identified by means of ESI‐MS and NMR analysis.     

An improved method of simultaneous determination of lutein and zeaxanthin in food

Based on an official standard method of lutein analysis, an improved high performance liquid chromatography (HPLC) method for simultaneously detecting lutein and zeaxanthin was developed as focusing on the sample preparation protocol. The optimal pretreatment conditions included a saponification in a water bath for 15?min at a constant temperature of 50?°C, using a 10?mL 60% (w/v) potassium hydroxide solution, followed by extraction using 100?mL mixture of n-hexane, ethyl ether and cyclohexane (40: 40: 20, v/v/v). A mixture of dichloromethane, acetonitrile and methanol (20: 30: 50, v/v/v) was validated to elute lutein and zeaxanthin on a C₃₀ column (4.6?×?250?mm, 5?µm). The resolution between lutein and zeaxanthin is ≥2.5. A millet sample was used for methodological verification and the results showed that the linear relations for lutein and zeaxanthin were good in ranges of 0.23–9.37?μg/mL and 0.30–12.02?μg/mL, respectively. The relative standard deviations of lutein and zeaxanthin were 1.40% and 5.09%, respectively, and their spiked recoveries were between 86.60% and 98.75%. The lutein and zeaxanthin results from this modified HPLC method are superior to those from the Chinese official method and ultrasonic extraction method.     

Determination of carotenoids in two algae species from the saline water of Kapulukaya reservoir by HPLC

The local algae species, Chlorella vulgaris and Scenedesmus regularis, from a highly saline water body of Kapulukaya Reservoir were isolated to analyze their carotenoid composition and content using HPLC method. The gradient solvent system of methanol–acetonitrile–water (84:14:2, v/v/v) and methylene chloride (100%), used to resolve a range of carotenoids from the saponified cells, proved an acceptable separation as inferred from the retention factor (k) ranging between 0.75 and 7.76 and the separation factor (α) values greater than 1. Resolution peaks assigned to carotenoids, 21 for C. vulgaris extracts and 22 for S. regularis extracts, were reached within the duration time of 45?min. Main carotenoids identified either tentatively or positively were all-trans-lutein, 9- or 9′-cis-lutein, 13- or 13′-cis-lutein, cis-lutein, All-trans-α-carotene, 9- or 9′-cis-α-carotene, All-trans-β-carotene, 9- or 9′-cis-β-carotene in the species except for all-trans-β-cryptoxanthin found only in S. regularis. Auroxanthin, neochrome, neoxanthin, and cis-neoxanthin were identified as epoxy-containing compounds. Quantitatively, C. vulgaris was distinguished to have greater amount of lutein and cis-isomers (2.74?mg/g), 77.89% while S. regularis was predominated by β-carotene and cis isomers as major component, being 80.72% (5.76?mg/g) in total carotenoids (TC). In terms of total carotenoids, the species were considered to be efficient sources for further practical applications.     

An improved method for simultaneous analysis of steroid and phenolic endocrine disrupting chemicals in biological samples

An improved method was developed for the simultaneous determination of eight steroid and phenolic endocrine disrupting chemicals, such as oestrone (E1), 17β-oestradiol (E2), oestriol (E3), 17α-ethynylestradoil (EE2), 4-nonylphenol (4-NP), bisphenol A (BPA), 4-tert-octylphenol (4-t-OP) and 4-cumylphenol (4-CP), in biological samples. The optimal extraction and clean-up procedures were investigated using microwave-assisted extraction (MAE), automated gel permeation chromatography (GPC) and solid phase extraction (SPE). As a consequence, the most efficient extraction was achieved by using MAE with methanol as solvent at an extraction temperature of 110°C for 20?min. The clean-up of extracts was carried out by GPC on a Biobeads S-X3 column with cyclohexane/ethyl acetate (1:1, v/v) as mobile phase. Target compounds were eluted in the fraction from 7–14?min retention time. Moreover, the cleanest extracts were obtained by solid phase extraction with C-18 cartridges after the elution with 15?mL ethyl acetate. The final sample extracts were derivatised using N,O-bis(trimethylsilyl)trifluoroacetamide (BSTFA) (1% trimethylchlorosilane, TMCS) as derivatisation reagent with pyridine as the solvent. Quantification was performed by gas chromatography-mass spectrometry (GC-MS) with electron ionisation (EI) and selected ion monitoring (SIM) mode. The method was validated by spiked samples which showed good recovery and reproducibility. The overall recoveries ranged between 55.1% and 100.6%, with relative standard deviations (RSD) of 2.3–12.7% for the entire procedure. Method detection limits (MDL) ranged from 0.3 to 0.7?ng?g^?1 dry weight (dw). Performance of the method was demonstrated by its application on tissues from fish exposed to high concentration of EDCs in the laboratory. The developed method is a promising approach for the analysis of steroid and phenolic endocrine disrupting chemicals in various biological samples.     

HPTLC–densitometric and HPTLC–MS methods for analysis of flavonoids

HPTLC silica gel plates without and with fluorescence indicator F₂₅₄ in combination with n-hexane–ethyl acetate–formic acid (20:19:1, v/v/v) as a developing solvent were explored for the HPTLC–densitometric and HPTLC–MS/(MSⁿ) analyses of flavonoids. Pre-development of the plates with chloroform–methanol (1:1, v/v) was needed for reliable HPTLC–densitometric analyses of flavonoid aglycones in the whole R_F range, while 2-step pre-development (1^st methanol–formic acid (10:1, v/v), 2^nd methanol), that decreased background signals of formic acid adducts, was required for HPTLC–MS analyses. Optimization with conditioning of the adsorbent layer with water before development and saturation of the twin trough chamber resulted in required decrease of the R_F values of studied flavonoids (flavone, apigenin, luteolin, chrysin, quercetin dihydrate, myricetin, kaempferide, kaempferol, naringenin, pinocembrin).

Detection was performed based on fluorescence quenching (on the plates with F₂₅₄), natural fluorescence and after post-chromatographic derivatization with natural product reagent without or with further enhancement and stabilization of fluorescent zones with polyethylene glycol (PEG 400 or PEG 4000) or paraffin–n-hexane reagents. For all three reagents, drying temperature and time passed after drying influenced the intensity, which was increasing the first 20?min, and the stability (less than 2?h for PEGs and at least 24?h for paraffin–n-hexane) of the standards’ zones.

Optimal wavelengths for densitometric evaluation were selected based on in-situ absorption spectra scanned before and after derivatization and after stabilization. The developed method was tested via analyses of propolis, roasted coffee, rose hip, hibiscus, rosemary and sage crude extracts. To further increase the reliability of the obtained densitometric results HPTLC–MS/(MSⁿ) analyses of all crude extracts were performed. Several phenolic and non-phenolic compounds were tentatively identified.

Some possible interferences with phenolic acids (chlorogenic acid, rosmarinic acid, protocatechuic acid, gallic acid, syringic acid, ellagic acid, trans-cinnamic acid, o-coumaric acid, m-coumaric acid, p-coumaric acid, caffeic acid, ferulic acid, sinapic acid) that are often present in the extracts together with flavonoids were also examined.     

Separation of antiviral nucleoside phosphoramidate diastereomers by analytical supercritical fluid chromatography

Two amino acid phosphoramidates with high antiviral activity were used as model compounds and separated using supercritical fluid chromatography on an achiral Hypersil BDS cyano column (250 × 4.6 mm, 5 µm). Supercritical CO₂ was used as a mobile phase with different co-solvents, including methanol, ethanol, and 2-propanol. Several key processing parameters were evaluated, including the type and concentration of alcohol modifier (5 to 15%), backpressure (100 to 200 bar), and column temperature (30 to 45 ?C) in terms of their impact on retention factor, diastereoselectivity, and resolution. The optimized chromatographic conditions allowed for a complete separation of mixture of two diastereomers with good resolution over a short time (5–9 min). At a backpressure of 150 bar and a temperature of 33°C, the diastereomers of phenylalanine methyl ester phenyl 5′-phosphoamidate of d4T (d4T-P-N-PheOMe) and alanine methyl ester phenyl 5′-phosphoamidate of d4T (d4T-P-N-AlaOMe) were separated with resolutions of 4.43 and 2.55 using 10.0% and 5.0% (v/v) methanol, respectively.     

Determination of muscimol and ibotenic acid in mushrooms of Amanitaceae by capillary electrophoresis

In this study, the CZE method for rapid quantitative and qualitative determination of ibotenic acid and muscimol in Amanita mushrooms naturally grown in Poland was developed. The investigations included the species of A. muscaria, A. pantherina, and A. citrina, collected in southern region of Poland. The studied hallucinogenic compounds were effectively extracted with a mixture of methanol and 1 mM sodium phosphate buffer at pH 3 (1:1 v/v) using ultrasound‐assisted procedure. The obtained extracts were separated and determined by CZE utilizing a 25 mM sodium phosphate running buffer adjusted to pH 3 with 5% content of acetonitrile v/v. The calibration curves for both analytes were linear in the range of 2.5–7000 μg/mL. The intraday and interday variations of quantitative data were 1.0 and 2.5% RSD, respectively. The recovery values of analyzed compounds were over 87%. The identities of ibotenic acid and muscimol were confirmed by UV spectra, migration time, and measurements after addition of external standard.     

Off-line Coupling of Isotachophoresis and High Performance Liquid Chromatography for Determination of Flavonoids in Plant Extract

Summary The use of isotachophoretic sample pretreatment coupled with high performance liquid chromatography for the analysis of some flavonoids occurring in plant extracts of Hypericum perforatum and Crataegus sp. is described. The samples were extracted with methanol by means of sonication in low temperature. The optimal leading electrolyte was used 10 mM Cl^– as a leading ion in a buffer system at apparent pH^*=7.2 (adjusted by TRIS) and terminating electrolyte was 50 mM boric acid at apparent pH^*=8.2 (adjusted by barium hydroxide). The ITP electrolytes contained 20% (v/v) of methanol. To improve the sample pre-treatment, a pair of discrete ITP spacers defining the trapped constituents was used. Major components presented in the extracts were separated on a Discovery C18 and Discovery RP Amid C16 columns with a gradient mobile phase consisting of methanol, acetonitrile and diluted ortho-phosphoric acid. The quantification was performed by using external standards. The recoveries of the coupled ITP-HPLC analytical procedure were in the range of 91.2–95.6%.     

ACE applied to the quantitative characterization of benzo‐18‐crown‐6‐ether binding with alkali metal ions in a methanol–water solvent system

ACE was applied to the quantitative evaluation of noncovalent binding interactions between benzo‐18‐crown‐6‐ether (B18C6) and several alkali metal ions, Li⁺, Na⁺, K⁺, Rb⁺ and Cs⁺, in a mixed binary solvent system, methanol–water (50/50 v/v). The apparent binding (stability) constants (K_b) of B18C6–alkali metal ion complexes in the hydro‐organic medium above were determined from the dependence of the effective electrophoretic mobility of B18C6 on the concentration of alkali metal ions in the BGE using a nonlinear regression analysis. Before regression analysis, the mobilities measured by ACE at ambient temperature and variable ionic strength of the BGE were corrected by a new procedure to the reference temperature, 25°C, and the constant ionic strength, 10 mM . In the 50% v/v methanol–water solvent system, like in pure methanol, B18C6 formed the strongest complex with potassium ion (log K_b=2.89±0.17), the weakest complex with cesium ion (log K_b=2.04±0.20), and no complexation was observed between B18C6 and the lithium ion. In the mixed methanol–water solvent system, the binding constants of the complexes above were found to be about two orders lower than in methanol and about one order higher than in water.     

A reproducible, rapid and inexpensive Folin-Ciocalteu micro-method in determining phenolics of plant methanol extracts

A new combination among time, temperature, alkali and alcohol is described for the spectrophotometric determination of small concentrations of phenolics in methanol extracts from plant. It is a variation of the classical Folin-Ciocalteu (F-C) method, but the reaction conditions are optimized in order to eliminate methanol interferences in the assay. Alcohol concentration and reaction time limits have been evaluated as 4% methanol (v/v) and 20 min at 40 °C, using a 5% (w/v) sodium carbonate solution. This F-C micro-method is reproducible, quick, inexpensive and particularly helpful if it works with numerous samples or on a small scale, such as during the setting up of an experimental procedure of alcoholic extractions.     

Simultaneous determination of 75 abuse drugs including amphetamines,benzodiazepines, cocaine,opioids, piperazines,zolpidem and metabolites in human hair samples using liquid chromatography–tandem mass spectrometry

A liquid chromatography–tandem mass spectrometric method for the simultaneous determination of 75 abuse drugs and metabolites, including 19 benzodiazepines, 19 amphetamines, two opiates, eight opioids, cocaine, lysergic acid diethylamide, zolpidem, three piperazines and 21 metabolites in human hair samples, was developed and validated. Ten‐milligram hair samples were decontaminated, pulverized using a ball mill, extracted with 1 mL of methanol spiked with 28 deuterated internal standards in an ultrasonic bath for 60 min at 50°C, and purified with Q‐sep dispersive solid‐phase extraction tubes. The purified extracts were evaporated to dryness and the residue was dissolved in 0.1 mL of 10% methanol. The 75 analytes were analyzed on an Acquity HSS T3 column using gradient elution of methanol and 0.1% formic acid and quantified in multiple reaction monitoring mode with positive electrospray ionization. Calibration curves were linear (r ≥ 0.9951) from the lower limit of quantitation (2–200 pg/mg depending on the drug) to 2000 pg/mg. The coefficients of variation and accuracy for intra‐ and inter‐assay analysis at three QC levels were 4.3–12.9% and 89.2–109.1%, respectively. The overall mean recovery ranged from 87.1 to 105.3%. This method was successfully applied to the analysis of 11 forensic hair samples obtained from drug abusers.     

Occurrence of methylated arsenic species in parts of plants growing in polluted soils

Arsenic compounds were determined in extracts of branches, leaves and roots from plants growing in a mining contaminated area. The selected species were Dryopteris filix-max, Quercus pubescens, Dipsacus fullonum, Alnus glutinosa, Buxus sempervirens and Brachythecium cf. reflexum. Total arsenic content in the subsamples was analysed by ICPMS after acidic digestion. In general, concentrations in the plant parts followed the gradient roots?>?branches?>?leaves indicating that they are arsenic-resistant plants. Arsenic species were determined in water/methanol (9?+?1, v/v) extracts by HPLC-ICPMS. Different levels of organoarsenicals were found depending on plant part and plant species. Higher percentages of organoarsenic compounds were recorded in branches and leaves (up to 35% in the boxtree sample), than in roots (0.7–5.2% in the same plant species). The absence of organic arsenic species in the soil where the plants were collected and the low levels of organoarsenicals found in the roots, indicate that the studied plants have the ability to accumulate or synthesise organoarsenic compounds in relatively high percentages, and this information contributes to enlarge the knowledge of arsenic uptake and speciation in plants.