Liquid chromatographic determination of the enantiomeric composition of amphetamine and related drugs by diastereomeric derivatization

A procedure is described for the derivatization of amphetamine and methamphetamine enantiomers with 4-nitrophenylsulfonyl-(S)-prolyl chloride. The resulting diastereomeric amphetamine derivatives were resolved by a reversed-phase procedure. The derivatization yield was maximized in the 95% range using a five-fold molar excess of the chiral derivatizing agent and an approximate 18 to 1 ratio of base (NaHCO3) to total acid generated in the reaction.     

Simultaneous determination of free-form amphetamine in rat's blood and brain by in-vivo microdialysis and liquid chromatography with fluorescence detection

The determination of amphetamine in rat's blood and brain simultaneously by micordiaysis technique and HPLC/fluorescence derivatization is described. Microdiaysis is used to sample rat's blood and brain fluid and the amphetamine content is evaluated by HPLC/fluorescence derivatization assay. Dansyl chloride is used as fluorescence derivatization reagent. The detection limit, linearity and precision associated with this assay were evaluated. Pharmarcokinetic parameters of amphetamine in rat's blood and brain are also reported.     

HPLC Determination of Amino And Carbonyl Compounds with Dabsyl Chloride and Dabsyl Hydrazine

The new chromophoric reagent, 4-dimethylaminoazobenzene-4′-sulfonyl chloride (dabsyl chloride) was synthesized by reaction of sodium 4-dimethylaminoazobenzene 4′-sulfonate with phosphorus pentachloride. Dabsyl chloride reacted rapidly with all amino acids, aliphatic amines, and polyamines to form the corresponding dabsyl derivatives. The dabsyl amino acids (10^?11 mol) were visualized on thin layer plates and found to be photo-stable. During the last 12 years, in combination with HPLC, this newly developed labeling reagent has been shown to be very promising for microdetermination of amino acids, aliphatic amines and polyamines. Recently, another new chromophoric reagent, dabsylhydrazine, was synthesized from the reaction of dabsyl chloride with hydrazine. This reagent reacted readily with monosaccharides and carbonyl compounds to form the corresponding chromophoric dabsylhydrazones with strong absorbance at 425 nm. The application of this new reagent in HPLC analysis of monosaccharides was discribed. By use of Nova-PAK C₁₈ reverse-phase column and a concave gradient system of water and acetonitrile as eluent, the detection limits of monosaccharides in the range of 10 pmol have been reached.     

新型荧光衍生试剂用于脂肪胺的反相高效液相色谱-荧光检测分析

利用新型荧光试剂4-(1H-菲并[9,10-d]咪唑-2-)苯甲酸(PIBA)进行柱前衍生并经荧光检测对脂肪胺进行了高效液相色谱(HPLC)分离和在线质谱定性。激发和发射波长分别为ex=261nm,em=443nm。80℃下在吡啶溶剂中用N-乙基-N’-[(3-二甲氨基)丙基]碳二亚胺盐酸盐(EDC)做催化剂,衍生反应10min后获得稳定的荧光产物。在EclipseXDB-C8色谱柱(4.6150mm,5mm)上,梯度洗脱对12种游离脂肪胺衍生物进行了优化分离。采用大气压化学电离源(APCI)正离子模式,实现了各种脂肪胺衍生物的测定。多数脂肪胺的线性回归系数大于0.9999,检测限为10.5～53.4fmol。     

Micro high performance liquid chromatography of aliphatic amines by means of resonance raman detection

A micro high performance liquid chromatography coupled with a resonance Raman detection system is described. For highly sensitive Raman detection, aliphatic amines were derivatized with dabsyl chloride (4-dimethylaminoazobenzene-4′-sulfonyl chloride). The derivatives were separated on an ODS micro column (0.5 mm i.d. × 145 mm PTFE tube). Chromatograms were obtained by measuring the intensity of Raman scattering at 1136 cm^?1 with the 488.0 nm line of an Arion laser. The lower detection limit was 1.5 ng and the RSD of relative peak height (n = 9) was 5.9% at 11 ng of methylamine derivative. Moreover, by stopping the flow of the micro HPLC system at the retention time of the individual derivatives, it was possible to measure their resonance Raman spectra.     

Automated pre-column derivatization of amines in biological samples with dansyl chloride and with or without post-column chemiluminescence formation by using TCPO-H2O2.

On-line automation of two different liquid chromatographic procedures, a pre-column derivatization system and a pre- and post-column system, in order to generate chemiluminescence is reported. Dansyl chloride (Dns-Cl) was used as a pre-column reagent to form fluorophores and bis(2,4,6-trichlorophenyl) oxalate (TCPO) and hydrogen peroxide (H2O2) as a post-column reagent to generate chemiluminescence. This procedure is based on the employment of a primary column packed with C18 material inserted in a multi-dimensional assembly for sample clean-up and derivatization with Dns-Cl. The dansyl derivatives formed are transferred and separated in a LiChrospher 100 RP18 analytical column (125 x 4 mm id, 5 microns film thickness) using acetonitrile-imidazole buffer (pH 6.8) (70 + 30) as eluent. The separated derivatives were transferred to the detector for fluorescence detection or to the post-column system where the chemiluminescence response was generated by using TCPO-H2O2 and the products were detected by chemiluminescence. The procedure was optimised for amphetamine and related compounds. A comparison between the on-line pre-column and pre- and post-column systems was performed. The results show that the sensitivity of chemiluminescence detection can be higher than that of fluorescence detection. The recoveries obtained ranged from 98 +/- 8 up to 108 +/- 8% for amphetamine and methamphetamine, respectively. The accuracy and precision of these methods were evaluated.     

Determination of the quaternary compound ciclotropium in human biological material after hydrolysis and derivatization with the fluorophor flunoxaprofen chloride

The quantitative determination of the quaternary spasmolytic compound ciclotropium and its metabolite N-isopropyltropinium is described for human plasma and urine. The analytical procedure consists of ion-pair extraction from biological material, alkaline hydrolysis, subsequent derivatization with the fluorophor flunoxaprofen chloride and separation by high-performance liquid chromatography on a reversed-phase column with fluorimetric monitoring. The detection limits of 0.5 ng/ml in plasma and 10 ng/ml in urine at signal-to-noise ratios higher than 3 permit the determination of pharmacokinetic parameters after therapeutic doses.     

Assay for both ascorbic and dehydroascorbic acid in dairy foods by high-performance liquid chromatography using precolumn derivatization with methoxy- and ethoxy-1,2-phenylenediamine

A procedure for the simultaneous determination of both ascorbic and dehydroascorbic acid in dairy foods by high-performance liquid chromatography using precolumn derivatization with 4-methoxy- and 4-ethoxy-1,2-phenylenediamine is presented. The derivatives are isolated by solid-phase extraction and analysed by fluorescence detection on a resin-type reversed-phase column at pH 9. Retention times are 2 and 3.2 min for the derivatives of ascorbic and dehydroascorbic acid, respectively. Relative standard deviations of the within- and between-assay tests are 7.1 and 5.5%, respectively, for ascorbic and 11 and 9%, respectively, dehydroascorbic acid. The limits of detection are 50 and 70 fmol per 5-microl injection for ascorbic and dehydroascorbic acid, respectively.     

On-fiber derivatization for direct immersion solid-phase microextraction. Part II. Acylation of amphetamine with pentafluorobenzoyl chloride for urine analysis

On-fiber derivatization was used for solid-phase microextraction (SPME) in order to increase the detectability and extractability of drugs in biological samples. Amphetamine, which was used as a model compound, was derivatized with pentafluorobenzoyl chloride (PFBCl) and subjected to gas chromatography with electron capture or mass spectrometric detection. Extraction was performed by direct immersion of a 100 microm polydimethylsiloxane-coated fiber into buffered human urine. On-fiber derivatization was performed either after or simultaneously with extraction. The former procedure gave cleaner chromatograms but the latter turned out to be superior with respect to linearity and repeatability. For the on-fiber derivatization of amphetamine an excess of reagent is required. Because a considerable part of the PFBCl loaded on to the fiber is used up by reaction with matrix compounds and water, a reagent loading time of 5 min was needed to obtain a linear range (r = 0.9756) from 250 pg mL(-1) to 15 ng mL(-1). Due to an interfering matrix compound, the limit of detection was also found to be dependent on the reagent loading time, i.e., the limit of detection for a PFBCl loading time of 5 min is 250 pg mL(-1) whereas that for a 1 min loading time it is 100 pg mL(-1). The relative standard deviation (n = 7) of the method was about 11% at an amphetamine concentration of 1 ng mL(-1). The applicability of the method for the determination of drugs in biological samples is shown.     

Evaluation of a new reagent: anthraquinone-2-sulfonyl chloride for the determination of phenol in water by liquid chromatography using precolumn phase-transfer catalyzed derivatization

A new reagent, anthraquinone-2-sulfonyl chloride, is used for the derivatizaton of phenols. Several compounds with different polarities are selected to evaluate the new reagent and derivatives of these phenols that are prepared via a facile pathway. The optimal conditions for analytical derivatization and mechanism of the derivatization reaction are discussed. The derivatization procedure involves an ion-pair extraction of the deprotonated phenols with a tetrabutylammonium counter ion in the organic phase. At the interface of two phases, the derivatization reaction occurs quantitatively at room temperature within 3 min. The derivatives are stable and readily amenable to analysis by normal-phase (NP) and reversed-phase (RP) high-performance liquid chromatography (HPLC). Excellent linearity response was demonstrated over the concentration range of 0.2-200 micromol/L at 320 nm for NP-HPLC and at 256 nm for RP-HPLC. Combined with preconcentration using a Waters Sep-Pak Plus C(18) cartridge, detection limits of phenols for water-sample analysis are as low as 1 x 10(-9) mol/L (approximately 0.1 microg/mL).     

HPLC Determination of Amino Acids by Pre-Column Fluorescence Derivatization with Carbazole-9-yl-Acetyl Chloride

Atpresentseparationsandquantitativedeterminationsofaminoacidsbymeansofnewfluorescencereagentsforpre-columnorpost-columnderivatizationinRP-HPLCarestillanactivefiled,developmentshavingbeensummarizedbySnyder'.MostaminoacidsdonotshowUVabsorptionin220-254urn,henceinordertoincreasedetectionsensitivityandimproveselectivity,generallyderivatizationreagentsareemployed.Phenylisothiocyanate(PITC)',OPAand3,5-dinitrobenzoylchloride3arewellknownderivatizationreagefltsforthedeterminationofaminocompounds…     

Extraction-chromatographic determination of hydrazine in natural water as a 5,7-Dinitrobenzofurazan derivative using diode-array detection

The conditions for the derivatization of hydrazine withp-dimethylaminobenzaldehyde and 4-chloro-5,7-dinitrobenzofurazan, extraction preconcentration of derivatives from natural water, and HPLC determination of the toxicant with diode-array detection were studied. The 5,7-dinitrobenzofurazan derivative was quantitatively extracted from water with isoamyl alcohol and a mixture of isoamyl alcohol with methylene chloride at pH 3–4. A procedure was developed for the extraction-chromatographic determination of hydrazine in water with c_min = 0.05 Μg/L and the analytical range 0.12-60 Μg/L. The concentration of hydrazine in lake Kaban water was determined.     

9,10-蒽醌-2-磺酰氯用于液相柱前相转移衍生测定水中酚的评价(英文)

 一种新的衍生试剂9,10 蒽醌 2 磺酰氯(ASC)首次用于酚类衍生。几种不同极性的酚被用于评价该试剂。为便于考察ASC对酚衍生的机理及优化衍生条件,制备了不同酚的标准衍生物并对它们进行了结构确证。衍生过程涉及去质子酚与特丁基铵阴离子形成离子对后被有机溶剂提取。衍生反应可以在室温下3min内在两相界面上定量完成。衍生产物很稳定,可以分别被正相和反相分离(相应地在320nm或256nm波长处检测),其浓度和响应在0 2μmol/L～200μmol/L内存在很好的线性关系。     

The influence of the brewing process on the formation of biogenic amines in beers

Biogenic amines, as dabsyl derivatives, were determined in beer samples, intermediate products, and raw materials (malt and maize) by HPLC. A procedure for the extraction of the amines from malt and maize with diluted hydrochloric acid was optimised by combining a Response Surface Methodology with a Simultaneous Decision Making Approach. The results of the analysis indicate that, in brewing, technology and hygiene are the decisive factors that determine the amine concentrations in the final product.     

Thin-layer chromatographic and column liquid chromatographic analyses of morphine in urine via dabsylation

A semiquantitative screening method for morphine in urine and a quantitative assay method for the drug were developed. In the semiquantitative method, morphine in urine was directly reacted with 4-dimethylaminoazobenzene-4'-sulphonyl chloride (dabsyl chloride) in a slightly alkaline medium. The orange-coloured dabsyl morphine was separated by silica gel thin-layer chromatography and the spot intensity was visually compared with that of the standards. The limit of detection is 0.075 microgram/ml. In the quantitative method, morphine was extracted from urine before dabsylation. The dabsylation reaction is very fast and is complete within 5-10 min at room temperature. Dabsylation yield is maximum at a dabsyl chloride concentration of 6.2 mM. Total recovery of morphine using the extraction and dabsylation procedures described is 66%. Dabsyl morphine, thus formed, was analysed using high-performance liquid chromatography by monitoring its absorbance at 436 nm on a normal-phase mu Porasil column. The limit of quantitation using high-performance liquid chromatography is 0.26 microM (0.075 microgram/ml), which corresponds to 10.5 pmol of injected dabsyl morphine. Quantitative assay was also carried out by thin-layer chromatography on silica gel followed by densitometry. The limit of quantitation is 1.3 microM (0.375 microgram/ml).     

Automated headspace solid-phase microextraction and in-matrix derivatization for the determination of amphetamine-related drugs in human urine by gas chromatography-mass spectrometry

An automated extraction and determination method for the gas chromatography (GC)-mass spectrometry (MS) analysis of amphetamine-related drugs in human urine is developed using headspace solid-phase microextraction (SPME) and in-matrix derivatization. A urine sample (0.5 mL, potassium carbonate (5 M, 1.0 mL), sodium chloride (0.5 g), and ethylchloroformate (20 microL) are put in a sample vial. Amphetamine-related drugs are converted to ethylformate derivatives (carbamates) in the vial because amphetamine-related drugs in urine are quickly reacted with ethylchloroformate. An SPME fiber is then exposed at 80 degrees C for 15 min in the headspace of the vial. The extracted derivatives to the fiber are desorbed by exposing the fiber in the injection port of a GC-MS. The calibration curves show linearity in the range of 1.0 to 1000 ng/mL for methamphetamine, fenfluramine, and methylenedioxymethamphetamine; 2.0 to 1000 ng/mL for amphetamine and phentermine; 5.0 to 1000 ng/mL for methylenedioxyamphetamine; 10 to 1000 ng/mL for phenethylamine; and 50 to 1000 ng/mL for 4-bromo-2,5-dimethoxyphenethylamine in urine. No interferences are found, and the time for analysis is 30 min for one sample. Furthermore, this proposed method is applied to some clinical and medico-legal cases by taking methamphetamine. Methamphetamine and its metabolite amphetamine are detected in the urine samples collected from the patients involved in the clinical cases. Methamphetamine, amphetamine, and phenethylamine are detected in the urine sample collected from the victim of a medico-legal case.     

Optimization of experimental variables in the dabsyl chloride derivatization of biogenic amines for their determination by RP-HPLC

Summary In the last few years special attention has been paid to the pre-column derivatization of biogenic amines with dabsyl chloride because proper experimental conditions for this reaction are very important. In this study, an experimental design (Doehlert design) was used to optimize the variables involved in the dabsylation of the following amines: histamine, tyramine, phenylethylamine, tryptamine, cadaverine, putrescine, spermidine, and spermine. The optimum experimental conditions for forming the dabsyl derivatives are: reagent concentration, 1.75.10⁻³ M; pH, 8.2; temperature, 70°C; heating time (t _h ), 21 min. Under these conditions good chromatographic repeatability is obtained.     

Derivatization of secondary amines with 2-naphthalene-sulfonyl chloride for high-performance liquid chromatographic analysis of spectinomycin

A normal-phase high-performance liquid chromatographic (HPLC) method has been developed for the assay of spectinomycin hydrochloride and spectinomycin sulfate for detection at 254 nm. The method involves pre-column derivatization of secondary amines of spectinomycin with 2-naphthalenesulfonyl chloride (NSCl) using a catalyst. Lincomycin, 1-methylpyrrole, 2-acetyl-1-methylpyrrole, and 2-acetyl-pyrrole act as catalysts for sulfonylation of spectinomycin. Without a catalyst, the derivatization reaction forms a considerable amount of actinospectinoic acid, a degradation compound of spectinomycin, and peak area:weight ratio of the derivative is approximately 15% lower than those with the catalyst. Following derivatization the sample is extracted and chromatographed on a normal-phase silica column with detection at 254 nm. The method is applicable for the analysis of both the hydrochloride and sulfate salt forms of spectinomycin. All the known degradation compounds of spectinomycin such as actinamine, actinospectinoic acid and the biosynthesis intermediates, dihydrospectinomycin diastereoisomers, are completely separated with this method. Mass spectrometric data confirms that spectinomycin is derivatized with NSCl at the secondary amines located at positions 6 and 8 of the ring structure. The standard curves for the HPLC assay of spectinomycin hydrochloride and sulfate are linear with correlation coefficients of 0.9997 and 0.9999, respectively over the range of 0.05 mg/ml to 0.3 mg/ml. The relative standard deviations (R.S.D.) of the HPLC assay methods for spectinomycin hydrochloride and sulfate are 0.67% and 0.86%, respectively. Spectinomycin hydrochloride and sulfate bulk drugs were assayed by the HPLC method and compared to gas-liquid chromatography and microbiological assay results. The HPLC method was used to assay spectinomycin in a veterinary formulation, Linco-Spectin soluble powder. The sensitivity of the HPLC assay was determined to be approximately 4 ng sample load on the column, which suggests applicability in serum and residue level studies.     

Chiral gas chromatographic assay with flame ionization detection for amphetamine enantiomers in microsomal incubates

A chiral assay for amphetamine enantiomers in rat liver microsomal incubates is based on derivatization with (S)-(-)-N-(trifluoroacetyl)-prolyl chloride (S-TFPC), capillary chromatographic separation of the diastereomeric amide derivatives, and detection by a flame ionization detector. The method is capable of detecting low levels of S- or R-amphetamine. The assay is linear from 5 to 250 micrograms/mL for each enantiomer, and the limit of detection is 0.5 microgram/mL. The analytical method affords the average recoveries of 77.53 +/- 5.22% for R-amphetamine and 74.47 +/- 3.08% for S-amphetamine. The method allows the study of the metabolic depletion of S- and R-amphetamine in rat liver microsomal incubates. The time-dependent concentration of amphetamine enantiomers in rat liver microsomes was determined, and the stereoselectivity of amphetamine phase I metabolism was observed.     

Anthraquinone-2-sulfonyl chloride: a new versatile derivatization reagent-synthesis mechanism and application for analysis of amines

A new sulfonating agent, anthraquinone-2-sulfonyl chloride, has been synthesized. The reagent consists of three important moieties: a cyclic conjugation system (with 18 pi-electrons), a p-quinone system and a group of sulfonyl chloride and is thereby a versatile derivatization reagent for analytical chemistry. The mechanism about the synthetic reaction was first elucidated in aid of mass spectrometry. Several primary and secondary amines were selected to evaluate the new reagent and their standard derivatives were prepared via a facile pathway. Analytical derivatization carried on through a one-step procedure at room temperature within 3 min. The new reagent reacts quantitatively with amines to form stable sulfonamides, which are readily amenable to analysis by normal-phase and reversed-phase HPLC. Compared with standard derivatives, excellent response linearity is demonstrated over the concentration range 0.4-400 muM at 320 nm for normal-phase HPLC and 4 nM to 4 muM at 256 nm for reversed-phase HPLC. Detection limits are 0.8 nmol and 8 pmol, respectively.