Separation and identification of chiralN-acylcalix[4]arene amino acid derivatives by use of reversed-phase HPLC

Summary This work focuses on the separation and identification of p-tert butyl calix[4]arene derivatives. An isocratic mixture of 65% (v/v) acetonitrile and 35% (v/v) water with 0.1% (v/v) phosphoric acid was used as the mobile phase. A Bio-Rad Bio-Sil ODS-5S (250 mm×4 mm) column was used as the stationary phase with UV detection of the analytes at 274 nm. The reversed-phase high performance liquid chromatographic method which was developed provided baseline separation of five p-tertbutyl calix[4]arene derivatives in twenty minutes.     

Studies on the retention behaviour of some thiazolylazo derivatives in reversed phase liquid chromatography

The retention behaviour of thiazolylazo derivatives, 4-(2-thiazolylazo) resorcinol (TAR), 4-(2-thiazolylazo)-orcinol (TAO), 2-(2-thiazolylazo)-4-methylphenol (TAC) and 1-(2-thiazolylazo)-2-naphtol (TAN) was studied by reversed phase liquid chromatography. The optimum conditions for the separation of four thiazolylazo derivatives were examined with respect to column, flow rate, mobile phase composition and pH of mobile phase. These derivatives were separated simultaneously on Symmetry C₈ column using composition of acetonitrile/water (60/40, v/v) as mobile phase. The capacity factor (k′) has been decreased at higher pH than pK_a of solute which may due to the increasing concentration of the ionized species as increase the pH of mobile phase. The dependence of log k′ on the volume faction of water in the binary mobile phase and k′ on the liquid–liquid extraction distribution ratio (D_c) in acetonitrile–water (60/40, v/v)/n-octane extraction system for thiazolylazo derivatives were obtained good linear relationship. The results showed that the retention behaviour of these derivatives was mainly affected by the hydrophobic interaction between thiazolylazo as solute and mobile phase.     

Effects of elevated temperature and mobile phase composition on a novel C18 silica column

A novel polydentate C18 silica column was evaluated at an elevated temperature under acidic, basic, and neutral mobile phase conditions using ACN and methanol as the mobile phase organic modifier. The temperature range was 40-200 degrees C. The mobile phase compositions were from 0 to 80% organic-aqueous v/v and the mobile phase pH levels were between 2 and 12. The maximum operating temperature of the column was affected by the amount and type of organic modifier used in the mobile phase. Under neutral conditions, the column showed good column thermal stability at temperatures ranging between 120 and 200 degrees C in methanol-water and ACN-water solvent systems. At pH 2 and 3, the column performed well up to about 160 degrees C at two fixed ACN-buffer compositions. Under basic conditions at elevated temperatures, the column material deteriorated more quickly, but still remained stable up to 100 degrees C at pH 9 and 60 degrees C at pH 10. The results of this study indicate that this novel C18 silica-based column represents a significant advancement in RPLC column technology with enhanced thermal and pH stability when compared to traditional bonded phase silica columns.     

Determination of amino acid neurotransmitters in rat hippocampi by HPLC‐UV using NBD‐F as a derivative

A simple, rapid and accurate high‐performance liquid chromatography method with ultraviolet–visible detection was developed for the determination of five amino acid neurotransmitters – aspartate, glutamic acid, glycine, taurine and γ‐aminobutyric acid – in rat hippocampi with pre‐column derivatization with 4‐fluoro‐7‐nitrobenzofurazan. Several conditions which influenced derivatization and separation, such as pH, temperature, acetonitrile percentage mobile phase and flow rate, were optimized to obtain a suitable protocol for amino acids quantification in samples. The separation of the five neurotransmitter derivatives was performed on a C₁₈ column using a mobile phase consisting of phosphate buffer (0.02 mol/L, pH 6.0)–acetonitrile (84:16, v/v) at a flow rate of 1.0 mL/min with the column temperature at 30°C. The detection wavelength was 472 nm. Without gradient elution, the five neurotransmitter derivatives were completely separated within 15 min. The linear relation was good in the range from 0.50 to 500 µmol/L, and the correlation coefficients were ≥0.999. Intra‐day precision was between 1.8 and 3.2%, and inter‐day precision was between 2.4 and 4.7%. The limits of detection (signal‐to‐noise ratio 3) were from 0.02 to 0.15 µmol/L. The established method was used to determine amino acid neurotransmitters in rat hippocampi with satisfactory recoveries varying from 94.9 to 105.2%. Copyright © 2013 John Wiley & Sons, Ltd.     

Multi-dimensional high-performance liquid chromatography of opioid peptides following pre-column derivatization with naphthalene-2,3-dicarboxaldehyde in the presence of cyanide ion. Preliminary results on the determination of leucine- and methionine-enkephalin-like fluorescence in the striatum region of the rat brain

The reversed-phase high-performance liquid chromatography of three synthetic opioid peptides, 5leucine-enkephalin, 5methionine-enkephalin and [D-2alanine]-5methionine enkephalin, has been studied after their pre-column fluorogenic derivatization with naphthalene-2,3-dicarboxaldehyde in the presence of cyanide to the corresponding 1-cyanobenz[f]isoindole (CBI) derivatives. The chromatographic properties of the three synthetic CBI-peptides were characterized using three different stationary phases, ODS Hypersil, CPS Hypersil and Spherisorb Phenyl, eluted with mobile phases containing various concentrations of methanol, tetrahydrofuran or acetonitrile in 26 mM trifluoroacetic acid, adjusted to pH 3.5. The data obtained using single chromatographic columns were used to design a multi-dimensional system in which the three synthetic CBI-peptides of interest were transferred as a single fraction from one column to a second. The first column served to separate the peptides from the majority of the material in the samples, and the second column was used to separate the three CBI-peptides from each other. The best separation was achieved in which the first column was Spherisorb Phenyl and the second column was ODS Hypersil. Both columns were eluted with a mobile phase of 45% acetonitrile (v/v) in 26 mM trifluoroacetic acid (pH 3.5) at a flow-rate of 1.0 ml/min. The method has been applied to the determination of leucine- and methionine-enkephalin-like fluorescence in the striatum of the rat brain.     

Retention of ionizable compounds on high-performance liquid chromatography. VII. Characterization of the retention of ionic solutes in a C18 column by mass spectrometry with electrospray ionization

The elution of ions from a C₁₈ column with mobile phases containing methanol (60%, v/v) and aqueous buffers is studied by mass spectrometry. It is demonstrated that the anions are excluded from the stationary phase by the ionized silanols. However, the ionized silanols interact strongly with cations, which are retained in the column. These cations are later eluted from the column by ion exchange with the cations present in the pH buffered mobile phase. The size of the ions, the mobile phase cation concentration and the mobile phase pH are the main parameters that affect elution of the retained cations. It is also demonstrated that there are at least two different types of ionizable silanols, with different acidities, that contribute to the retention of cations. An estimate of the pK_a values of these two groups of silanols in 60% methanol is given.     

高效液相色谱手性流动相添加法拆分阿卓乳酸对映体

采用C₁₈反相色谱柱,以磺丁基醚-β-环糊精（SBE-β-CD）作为手性流动相添加剂,建立了阿卓乳酸对映体的高效液相色谱拆分方法。考察了环糊精衍生物类型、手性添加剂浓度、流动相pH、流速和柱温对手性分离的影响,同时探讨了高效液相色谱采用磺丁基醚-β-环糊精分离阿卓乳酸对映体的分离机制及包结常数,确定了色谱条件为YMC-Pack ODS-A C₁₈色谱柱（250 mm×4.6 mm,5 μm）,流动相为含25 mmol/LSBE-β-CD的0.1 mol/L磷酸盐缓冲液（pH 2.68）-乙腈（90：10,v/v）,流速为0.6 mL/min,柱温为30 ℃,紫外检测波长为220 nm。对映体的保留时间分别为26.65和28.28 min,分离度为1.68。本方法分离度好,简便易行,且比使用手性固定相分离更加经济。     

Retention of ionizable compounds on high-performance liquid chromatography: VII. Characterization of the retention of ionic solutes in a C18 column by mass spectrometry with electrospray ionization

The elution of ions from a C₁₈ column with mobile phases containing methanol (60%, v/v) and aqueous buffers is studied by mass spectrometry. It is demonstrated that the anions are excluded from the stationary phase by the ionized silanols. However, the ionized silanols interact strongly with cations, which are retained in the column. These cations are later eluted from the column by ion exchange with the cations present in the pH buffered mobile phase. The size of the ions, the mobile phase cation concentration and the mobile phase pH are the main parameters that affect elution of the retained cations. It is also demonstrated that there are at least two different types of ionizable silanols, with different acidities, that contribute to the retention of cations. An estimate of the pK_a values of these two groups of silanols in 60% methanol is given.     

高效液相色谱法分离测定3-取代-(R,S)-β-丙氨酸对映异构体

以1-氟-2,4-二硝基-5-L-缬氨酰胺(Marfey试剂)为衍生试剂,采用反相高效液相色谱法分离了3-取代-(R,S)-β- 丙氨酸对映异构体。采用梯度洗脱(流动相 A:体积分数为0.1%的三氟乙酸乙腈溶液;流动相B:体积分数为0.1%的三氟乙 酸水溶液)成功分离了 32种3-取代-(R,S)-β-丙氨酸衍生物,所有化合物都是R型异构体衍生物(R-L)较S型异构体衍生物 (S-L)先洗脱。除3-羟基苯和4-羟基苯的疏水参数较小,但其取代的β-丙氨酸衍生物的保留时间较长、分离因子较小外, 其他疏水参数大的取代基的β-丙氨酸衍生物保留时间都长于疏水参数小的取代基的β-丙氨酸衍生物。该文同时测定了R -和S-β-丙氨酸的对映体过剩值。     

离子液体的阴离子三氟乙酸根、硫氰酸根、四氟硼酸根和三氟甲磺酸根的离子对色谱-直接电导检测法分析

建立了同时测定离子液体的阴离子三氟乙酸根、硫氰酸根、四氟硼酸根和三氟甲磺酸根的反相离子对色谱-直接电导检测方法。采用Diamonsil C18分离柱,以离子对试剂-苹果酸-乙腈水溶液为流动相,从流动相组成和色谱柱温度两方面讨论并确定了优化的色谱条件,即以0.15 mmol/L氢氧化四丁铵-0.099 mmol/L苹果酸-20%(v/v)乙腈混合水溶液(pH 6.5)为流动相,柱温25 ℃。在此条件下,三氟乙酸根、硫氰酸根、四氟硼酸根和三氟甲磺酸根离子均达到基线分离,且不受其他常见阴离子氟离子、氯离子、溴离子、硝酸根、硫酸根的干扰。三氟乙酸根、硫氰酸根、四氟硼酸根和三氟甲磺酸根离子的检出限(信噪比为3)分别为0.21、0.07、0.36、0.12 mg/L。将方法应用于测定离子液体中三氟乙酸根、硫氰酸根、四氟硼酸根和三氟甲磺酸根离子,加标回收率为95.0%～104.6%。该法简便、快速、灵敏度较高,可满足离子液体样品的检测要求。     

Fluorimetric determination of kynurenine in human serum by high-performance liquid chromatography coupled with post-column photochemical reaction with hydrogen peroxide

A high-performance liquid chromatographic method involving post-column photochemical reaction and fluorimetric detection has been developed for the determination of kynurenine in serum. Kynurenine was separated on a column of Capcell Pak C18 (resistant to pH 10). The mobile phase consisted of 0.05 M Na2B4O7-0.1 M KH2PO4 buffer (pH 8.5)-ethanol (97:3, v/v) containing 60 mM hydrogen peroxide. The post-column reagent, containing 60% (v/v) ethanol, was mixed with the mobile phase, which was irradiated with ultraviolet light to induce fluorescence. The recovery of kynurenine was 95.9 +/- 5.0% (n = 6). The method allows the determination of as little as 2 pmol of kynurenine.     

Optimization of chromatography to overcome matrix effect for reliable estimation of four small molecular drugs from biological fluids using LC–MS/MS

The article describes a systematic study to overcome the matrix effect during chromatographic analysis of gemfibrozil, rivastigmine, telmisartan and tacrolimus from biological fluids using LC–ESI–MS/MS. All four methods were thoroughly developed by the appropriate choice of analytical column, elution mode and pH of mobile phase for improved chromatography and overall method performance. Matrix effect was assessed by post-column analyte infusion, slope of calibration line approach and post-extraction spiking. The best chromatographic conditions established were: Acquity BEH C₁₈ (50 × 2.1 mm, 1.7 μm) column with 5.0 mm ammonium acetate, pH 6.0–methanol as the mobile phase under gradient program for gemfibrozil; Luna CN (50 × 2.0 mm, 3 μm) column with a mobile phase consisting of acetonitrile–10 mm ammonium acetate, pH 7.0 (90:10, v/v) for rivastigmine; Inertsustain C₁₈ (100 × 2.0 mm, 5 μm) column using methanol–2.0 mm ammonium formate, pH 5.5 (80: 20, v/v) as the mobile phase for isocratic elution of telmisartan; and Acquity BEH C₁₈ (50 × 2.1 mm, 1.7 μm) with methanol–10 mm ammonium acetate, pH 6.0 (95:5, v/v) as mobile phase for tacrolimus. The methods were thoroughly validated as per European Medicines Agency and US Food and Drug Administration guidance and were successfully applied for pharmacokinetic studies in healthy subjects.     

Analysis of catecholamines and their metabolites in adrenal gland by liquid chromatography tandem mass spectrometry

Two simple, rapid and specific analytical methods for 13 catecholamines and their metabolites have been developed based on liquid chromatography tandem mass spectrometry in a multiple reaction monitoring mode. Tyrosine, dopamine, dihydroxyphenylalanine, epinephrine, norepinephrine, 3-methoxytyramine, normetanephrine, metanephrine and isoproterenol (internal standard) were separated on a Kromasil™ Cyano analytical column by a mobile phase consisting of 60% (v/v) acetonitrile and 40% (v/v) water adjusted with formic acid to pH 3.0, and detected by positive ionization electrospray tandem mass spectrometry. While vanillymandelic acid, 3,4-dihydroxymandelic acid, homovanillic acid, 3,4-dihydroxyphenylacetic acid, 4-hydroxy-3-methoxyphenylglycol and 5-hydroxy-2-indolecarboxylic acid (internal standard) were separated on a reversed-phase Shim-Pak VP-ODS column with the mobile phase of 60% (v/v) acetonitrile, and 40% (v/v) water adjusted with formic acid to pH 4.5 and detected in the negative ionization electrospray tandem mass spectrometry. The influence of various parameters such as column type and mobile phase composition on separation and sensitivity were investigated. The limits of detection were in the range of 0.5-20 ng mL⁻¹. The mean recoveries determined from three different concentrations of each analyte were above 85.4%. The precision of the method calculated as relative standard deviation was lower than 5.3%. Deduced from the results of real sample analysis, adrenal gland synthesizes and stores the catecholamine hormones norepinephrine and epinephrine.     

Validation of an HPLC method for the determination of fleroxacin and its photo-degradation products in pharmaceutical forms

HPLC determination of fleroxacin in dosage forms was carried out using either reversed-phase column YMC pack ODS-AQ or Supelco LC Hisep shielded hydrophobic phase column, with UV detection at 280 nm. The mobile phase for ODS column consisted of 50:50:0.5 v/v/v and for Hisep column 15:85:0.5 v/v/v acetonitrile-water-triethylamine. The pH of the mobile phase was adjusted to 6.30 for ODS column and to 6.85 for Hisep column, with H3PO4. Linear response was obtained in the concentration range of fleroxacin between 0.01 and 1.30 micrograms/mL. Detection limit was 4.8 ng/mL. Recovery test in the determination of fleroxacin in "Quinodis" tablets (Hoffmann La Roche, nominal mass 400 or 200 mg) was 98-101% for both columns. The effect of the composition and pH of the mobile phase on spectra, retention time and dissociation constants of fleroxacin was discussed. The proposed method could be also used for separation of the photo-degradation products of fleroxacin. Ten degradation products were separated on the ODS-AQ column, thus confirming the suitability of the proposed method for stability study of fleroxacin in pharmaceuticals.     

Determination of clozapine and its metabolites in serum and urine by reversed phase HPLC

A rapid, specific and sensitive method using reversed phase HPLC for the simultaneous determination of clozapine and its two metabolites in serum and urine has been developed. The mobile phase was a mixture of 67% (v/v) methanol in water containing 0.4% tetramethylethylenediamine and 0.32% acetic acid (pH 5.5). The influence of methanol content, the pH of the mobile phase and the effect of adding alkylammonium ions as peak tailing reducer in the mobile phase have been investigated. The solvent for extracting clozapine from serum and urine was ether. 50 microliters of 0.25 M H2SO4 solution was used to redissolve the dry residue to eliminate the endogenous compounds which could otherwise be eluted together with clozapine from the HPLC column. The analysis of a single sample was accomplished within half an hour. The identities of the chromatographic peaks of clozapine and its N-demethyl metabolite collected from the patient urine sample were confirmed by mass spectrometry. The method is sufficiently sensitive (5 ng/ml) and reproducible (CV 2.9%-6.7%) for clinical and pharmacokinetic studies, and preliminary results in these respects are presented.     

Determination of sulfur oxyanions by ion chromatography on a silica ODS column with tetrapropylammonium salt as an ion-pairing reagent

The difficulty in using conventional ion chromatography for the determination of sulfate, thiosulfate, dithionate and polythionates (tri-, tetra-, penta- and hexathionate) in their mixtures, comes mainly from very late elutions of polythionates due to their strong retentions onto a separating column. Rapid and sensitive determination of these sulfur oxyanions has been achieved by ion-pair chromatography using a silica octadecylsilane (ODS) column with mobile phases of 10% or 20% (v/v) acetonitrile in water (pH, 5.0) containing 0.2 mM phthalate and 7 mM tetrapropylammonium salt (TPAOH). The sulfur species separated on the column were monitored with a conductivity detector after passing through a micro membrane suppressor in the H⁺ form. When an acetonitrile-water (10:90, v/v) mobile phase (pH, 5.0) of 0.2 mM phthalate and 7 mM TPAOH was used at a flow-rate of 0.8 ml min⁻¹, sulfate, thiosulfate, dithionate and trithionate were eluted at short retention times of 9.1, 9.7, 11.4 and 15.8 min, respectively; however, the higher polythionates required more than 30 min to elute. When the concentration of acetonitrile in the mobile phase was raised to 20% (v/v), all polythionates of tri- to hexathionate were completely separated from their mixtures within 21 min; in this instance, both sulfate and thiosulfate failed to be resolved due to their close retention times. Good recoveries were obtained for these sulfur oxyanions when added to various hot-spring water samples.     

Chiral separation of isoxanthohumol and 8‐prenylnaringenin in beer,hop pellets and hops by HPLC with chiral columns

Xanthohumol, isoxanthohumol, and 8‐prenylnaringenin in beer, hop and hop pellet samples were analyzed by HPLC using an InertSustain phenyl column and the mobile phase containing 40% methanol and 12% 2‐propanol. Fractions of isoxanthohumol and 8‐prenylnaringenin obtained by the above HPLC were separately collected. Isoxanthohumol and 8‐prenylnaringenin were enantioseparated by HPLC using a Chiralcel OD‐H column with a mobile phase composed of hexane–ethanol (90:10, v/v) and a Chiralpak AD‐RH column with a mobile phase composed of methanol–2‐propanol–water (40:20:40, v/v/v), respectively. Isoxanthohumol and 8‐prenylnaringenin from beer, hop and hop pellet samples were found to be present in a racemic mixture. This can be explained by the fact that the two analytes were produced by a nonenzymatic process. The effects of boiling conditions on the conversion of xanthohumol into isoxanthohumol were also studied. A higher concentration of ethanol in heating solvent resulted in a decrease in the conversion ratio and the conversion was stopped by addition of ethanol at >50% (v/v). The isomerization was significantly affected pH (2−10) and the boiling medium at pH 5 was minimum for the conversion. Therefore, it was suggested that xanthohumol was relatively difficult to convert to isoxanthohumol in wort (pH 5−5.5) during boiling.     

纳米纤维固相萃取-高效液相色谱法测定血浆中的5-羟色胺

基于纳米纤维的富集作用,建立了血浆中5-羟色胺(5-HT)的柱前衍生高效液相色谱-电化学检测(HPLC-ECD)分析方法.用10%(v/v)高氯酸溶液沉淀血浆蛋白,离心后取上清液,用0.1 mol/L 的四苯硼酸钠溶液调节pH值至8.5,加入衍生剂邻苯二甲醛溶液于30 ℃衍生4 min,经纳米纤维固相萃取柱净化富集后,...     

High-performance liquid chromatographic determination of navelbine in MO4 mouse fibrosarcoma cells and biological fluids.

A high-performance liquid chromatographic method is described for separating and determining navelbine and possible metabolites in plasma, cell culture medium and MO4 cells. Navelbine is extracted from these fluids by ion-pair extraction with sodium octylsulphate as the counter-ion at pH 3. The system uses a cyano column as the stationary phase and a mobile phase of acetonitrile-0.12 M phosphate buffer (pH 3) (60:40, v/v). Application of the method to a study of the pharmacokinetic behaviour of navelbine in MO4 mouse fibrosarcoma cells is reported.     

Direct enantiomeric resolution of disopyramide and its metabolite using chiral high-performance liquid chromatography. Application to stereoselective metabolism and pharmacokinetics of racemic disopyramide in man

A method for the simultaneous determination of disopyramide and mono-N-desisopropyldisopyramide enantiomers extracted from human plasma and urine is presented. Separation and quantitation were carried out using two columns coupled in series, and UV detection at 254 nm. First, the racemates of the two compounds were separated using a reversed-phase column, and then the enantiomers were separated using a stereoselective column packed with human alpha 1-acid glycoprotein. The mobile phase was 8 mM phosphate buffer, pH 6.20-2-propanol (92:8, v/v). The coefficients of variation (%) for the plasma daily determination were 6.7% for R(-)- and S(+)-disopyramide at drug levels of 1.5 micrograms/ml, and 8.5% and 7.7% for R(-)- and S(+)-mono-N-desisopropyldisopyramide, respectively, at drug levels of 0.375 micrograms/ml. The method has allowed the study of stereoselective metabolism and pharmacokinetics of disopyramide after oral administration as a racemate.