Development and Validation of a Liquid Chromatographic Method Useful for the Determination of Amino Acids in New and Commercial Alimentary Supplements

In this study, a new liquid chromatographic method with pre-column derivatization was developed and validated for the simultaneous quantification of acetylcarnitine taurinate, asparagine, potassium aspartate, asparagine and carnosine in new and commercial alimentary supplements. The effect of complex matrices was evaluated by the study of the amino acid derivatization reaction with 2,5-dimethyl-1H-pyrrole-3,4-dicarbaldehyde in placebo solutions (DPD). Experimental parameters affecting the derivatization and chromatographic separation were investigated. The reaction was carried out at room temperature for 10 min. The adducts were separated on a Synergi Hydro-RP 80 Å column using a mobile phase consisting of 11 mM aqueous tetrapropylammonium bromide (pH 3.5)/methanol by gradient elution conditions at a flow rate of 0.8 mL/min. UV absorbance detection was set at λ = 320 nm. The validation parameters such as linearity, sensitivity, accuracy, precision, specificity and ruggedness were highly satisfactory. Linear responses were obtained by placebo solutions (determination coefficient ≤ 0.9994). Intra-day precision (RSD) was ≤1.06 % for corrected peak area and ≤1.14 % for retention times (t _R) without significant differences between intra- and inter-day data. Recovery studies showed good results for all the examined compounds (from 97.72 to 101.5 %) with RSD ≤1.30 %.     

Development and Validation of Stability-Indicating UPLC Method for 9-Desmethyl-<Emphasis Type="Italic">α</Emphasis>-dihydrotetrabenazine

A stability-indicating UPLC method was developed for quantitative determination of 9-desmethyl-α-dihydrotetrabenazine (9-DM-α-DTBZ), the precursor for preparing a widely used vesicular monoamine transporter 2 imaging agent ¹¹C-α-DTBZ. Compound 9-DM-α-DTBZ was subjected to various stress conditions consisting of acidic, alkaline, oxidative, thermal and photolytic forced degradation. The decomposition of 9-DM-α-DTBZ was observed under oxidative condition, whereas no obvious degradation was shown under the other stress conditions. For chromatographic separation of 9-DM-α-DTBZ and its degradation products, an Acquity UPLC BEH C18 column (2.1 × 100 mm, 1.7 μm) and a mobile phase of 20:80 (v/v) methanol/ammonium acetate buffer (pH 4.5, 10 mM) were used. Quantitative determination of 9-DM-α-DTBZ was performed using a PDA detector at a flow rate of 0.30 mL min^?1. UPLC–MS analysis was further utilized to characterize the two degradation products. The proposed method was fully validated as per USP guidelines with respect to linearity, accuracy, precision, robustness, limit of detection (LOD) and limit of quantification (LOQ). The linear regression analysis showed a good linear relationship (r ²  = 0.9995) in the concentration range of 0.001–1.00 mg mL^?1 (n = 6). The assay method was found to have good precision (1.14–1.35% RSD) and recovery (98.91–101.23%). Additionally, the LOD and LOQ of 9-DM-α-DTBZ were 0.30 and 1.00 μg mL^?1, respectively. These results indicated that the present method could be used to evaluate the quality of regular production samples and also used in stability assays.     

Development and Validation of a Liquid Chromatographic Method Useful for the Determination of Amino Acids in New and Commercial Alimentary Supplements

In this study, a new liquid chromatographic method with pre-column derivatization was developed and validated for the simultaneous quantification of acetylcarnitine taurinate, asparagine, potassium aspartate, asparagine and carnosine in new and commercial alimentary supplements. The effect of complex matrices was evaluated by the study of the amino acid derivatization reaction with 2,5-dimethyl-1H-pyrrole-3,4-dicarbaldehyde in placebo solutions (DPD). Experimental parameters affecting the derivatization and chromatographic separation were investigated. The reaction was carried out at room temperature for 10 min. The adducts were separated on a Synergi Hydro-RP 80 Å column using a mobile phase consisting of 11 mM aqueous tetrapropylammonium bromide (pH 3.5)/methanol by gradient elution conditions at a flow rate of 0.8 mL/min. UV absorbance detection was set at λ = 320 nm. The validation parameters such as linearity, sensitivity, accuracy, precision, specificity and ruggedness were highly satisfactory. Linear responses were obtained by placebo solutions (determination coefficient ≤ 0.9994). Intra-day precision (RSD) was ≤1.06 % for corrected peak area and ≤1.14 % for retention times (t _R) without significant differences between intra- and inter-day data. Recovery studies showed good results for all the examined compounds (from 97.72 to 101.5 %) with RSD ≤1.30 %.

     

Preconcentration and spectrophotometric determination of trace amount of formaldehyde using hollow fiber liquid-phase microextraction based on derivatization by Hantzsch reaction

Formaldehyde is known as a highly toxic compound to humans and identified as a carcinogenic substance. In this study, Hantzsch reaction was utilized for the derivatization of trace amounts of formaldehyde in aqueous samples with acetylacetone in the presence of ammonia to form an extractable colored product named 3,5-diacetyl 1,4-dihydrolutidine (DDL) and its further extraction using two-phase hollow fiber liquid-phase microextraction. The main experimental variables affecting the extraction performance were investigated and optimized. Under the optimum conditions (sample volume 12 mL; reaction temperature 70 °C; ammonium acetate buffer solution 4 mL 0.1 mol L^?1; acetylacetone 5 mL 0.15 mol L^?1; solvent octanol, salt concentration 20% (w/v) NaCl; pH of donor phase 7.0; stirring speed 400 rpm and extraction time 30 min), the linear dynamic range, limit of detection (LOD as 3S _b/m) and relative standard deviation (RSD %) of the proposed method were obtained as 5–250 μg L^?1 (r ² = 0.9979), 3.6 μg L^?1 and 2.5%, respectively. Finally, the applicability of the proposed method was examined, and very good results were obtained. The results confirmed the applicability of the proposed method as a versatile, low-cost and sensitive preconcentration method for determination of low concentrations of formaldehyde in aqueous solutions.     

Development of a New Pre-Derivatization LC Method for Analysis of Branched-Chain and Aromatic Amino Acids in Rat Plasma and to Monitor their Dynamic Variation as a Result of Acute Hepatic Injury

9,10-Anthraquinone-2-sulfonyl chloride, a new derivatization reagent with strong UV absorbance, has been used to develop a reversed-phase liquid chromatographic method for analysis of branched-chain and aromatic amino acids in rat plasma. Because the reagent has a sulfonyl chloride group it is highly reactive with primary and secondary amino groups and reaction is complete within 5 min at room temperature in phosphate–borate buffer (pH 8.41)–acetonitrile. The resulting adducts were separated on a C₁₈ column at 30 °C and detected at 254 nm. Good linearity was achieved over the concentration range 10–1,000 μmol L^?1 for each amino acid. Intra-day precision (relative standard deviation; RSD, %) and accuracy (bias, %) for all quality-control concentrations, were ≤8.9% and 16.0%, respectively. Inter-day precision and accuracy were ≤9.5% and 11.7%, respectively. The method was used for analysis of branched-chain and aromatic amino acids in the plasma of rats with hepatic injury induced by d-galactosamine.     

Validation of an LC–MS/MS Method for Simultaneous Detection of Five Selective KCNQ Channel Openers: ICA-27243, ML-213, PF-05020182, SF-0034 and Flupirtine in Mice Plasma and its Application to a Pharmacokinetic Study in Mice

A sensitive and rapid LC–MS/MS method was developed and validated for the simultaneous quantitation of five selective KCNQ channel openers, namely ICA-27243, ML-213, PF-05020182, SF-0034 and flupirtine in mice plasma as per regulatory guideline. The analytes and the internal standard (IS; flupirtine-d ₄ ) were extracted from 50 µL mice plasma by liquid–liquid extraction, followed by chromatographic separation using an Atlantis C₁₈ column with an isocratic mobile phase comprising 0.2% formic acid: acetonitrile (20:80, v/v) at a flow rate of 0.6 mL min^?1 within 2.5 min. Detection and quantitation was done by multiple reaction monitoring on a triple quadrupole mass spectrometer following the transitions: m/z 268.9 → 140.8, 258.1 → 95.1, 367.2 → 269.1, 322.2 → 248.2, 305.7 → 196.4 and 309.1 → 196.1 for ICA-27243, ML-213, PF-05020182, SF-0034, flupirtine and the IS, respectively, in the positive ionization mode. The calibration curves were linear from 1.00 to 2008 ng mL^?1 for all the analytes with r² ≥ 0.99. The intra- and inter-batch accuracy and precision (% CV) across quality controls varied from 90.0 to 113 and 2.64 to 13.0; 93.8 to 114 and 3.15 to 14.9%, respectively, for all the analytes. Analytes were found to be stable under different stability conditions. The method was applied to a pharmacokinetic study in mice.     

A New LC–MS–MS Method for Quantitative Analysis of Adefovir,and Its Use for Pharmacokinetic Studies in Healthy Chinese Volunteers

A rapid and sensitive liquid chromatographic–tandem mass spectrometric method for analysis of adefovir in human plasma has been developed and validated. After protein precipitation and evaporation, 10 μL supernatant was injected for reversed-phase LC separation. Adefovir and the internal standard (acyclovir) were monitored in selected reaction monitoring (SRM) mode at m/z 274.10 → 256.00 and 226.10 → 152.00, respectively. The calibration plot was linear over the concentration range 0.5–100 ng mL^?1, and correlation coefficients were >0.999. Mean intra-day and inter-day accuracy ranged from 89.43 to 93.20% and from 91.40 to 95.57%, respectively, and mean intra-day and inter-day precision was between 2.40 and 7.66% and between 5.60 and 10.47%, respectively. The method was successfully applied to a Phase I pharmacokinetic study of adefovir after oral administration of adefovir dipivoxil capsules at doses of 5, 10, and 20 mg to twenty-four healthy Chinese volunteers.     

Determination of prazosin in pharmaceutical samples by flow injection analysis with multiple-pulse amperometric detection using boron-doped diamond electrode

This work describes the development of a simple, fast and low-cost method for determining prazosin (PRA) in pharmaceutical samples by flow injection analysis with multiple-pulse amperometric (FIA-MPA) detection using a boron-doped diamond film electrode. Electrochemical detection of PRA was optimized in phosphate buffer pH 4.0 by cyclic voltammetry, in which PRA presented two oxidation processes around at 0.97 and 1.40 V versus Ag/AgCl (3.0 mol L^?1 KCl). In these conditions, PRA also showed one reduction process at ?0.75 V that is dependent on the oxidation processes. Thus, the determination of PRA by FIA-MPA detection consisted on the application of a two-potential waveform, E ₁ (generator potential)?=?1.6 V/400 ms and E ₂ (collector potential)?=??1.0 V/30 ms, with sample loop of 150 μL and flow rate of 3.0 mL min^?1. The method showed good repeatability (RSD?<?3.0 %) and high analytical frequency (70 injections per h). The working linear range was obtained from 2 to 200 μmol L^?1 with a limit of detection of 0.5 μmol L^?1. The recovery tests in all samples were approximately 100 %, and the results were compared with chromatographic methods.     

Development and Validation of a Novel Stability Indicating UPLC <Emphasis Type="SmallCaps">M</Emphasis>ethod for Analysis of Related Compounds and Assay of Bexarotene,an Anti-Cancer Agent

A novel liquid chromatographic method for the analysis of four potential impurities in the anti-cancer agent Bexarotene has been developed and validated using efficient chromatographic separation, achieved on a C₁₈ column (50 mm × 2.1 mm, 1.7-μm particles) with a simple isocratic mobile phase at a flow rate of 0.5 mL min^?1. The mobile phase consisted of a 70:30:0.1 (v/v/v) mixture of acetonitrile, water and trifluoroacetic acid, and quantification was achieved by use of ultraviolet detection at 260 nm. Resolution between Bexarotene and its four potential impurities was greater than 2.0. Regression analysis showed the r value (correlation coefficient) was >0.999 for Bexarotene and its four impurities. The method was capable of detecting all four impurities of Bexarotene at levels below 0.10 μg in a Bexarotene test concentration of 0.5 mg mL^?1 using an injection volume of 5 μL. The recovery for Bexarotene in assay method at a 100% level was observed to be 99.1 ± 0.32% with % RSD value of 0.5% for drug substance and 98.9 ± 0.46% for Bexarotene capsules with % RSD value of 0.4%. Recovery of imp-1, imp-2, imp-3, and imp-4 from bulk drug samples ranged from 96.3 to 102.0%. Recovery of imp-1, imp-2, imp-3, and imp-4 from Bexarotene Capsule samples ranged from 97.2 to 101.4%. A solution of Bexarotene in ethanol was stable for 48 h. The drug was also subjected to stress conditions as prescribed by ICH Guidelines. Degradation was found to occur under acidic and basic hydrolysis stress conditions; however, the drug was stable to oxidative, photolytic, and thermal stress. Assay of the stressed samples was calculated relative to a qualified reference standard and the mass balance was found to be close to 99.8%. The method was validated for linearity, accuracy, precision, and robustness.     

Simultaneous Determination of Paracetamol and Caffeine in Human Plasma by LC–ESI–MS

A rapid, selective and convenient liquid chromatography–mass spectrometric method for the simultaneous determination of paracetamol and caffeine in human plasma was developed and validated. Analytes and theophylline [internal standard (I.S.)] were extracted from plasma samples with diethyl ether-dichloromethane (3:2, v/v) and separated on a C₁₈ column (150 × 4.6 mm ID, 5 μm particle size, 100 Å pore size). The mobile phase consisted of 0.2% formic acid–methanol (60:40, v/v). The assay was linear in the concentration range between 0.05 and 25 μg mL^?1 for paracetamol and 10–5,000 ng mL^?1 for caffeine, with the lower limit of quantification of 0.05 μg mL^?1 and 10 ng mL^?1, respectively. The intra- and inter-day precision for both drugs was less than 8.1%, and the accuracy was within ±6.5%. The single chromatographic analysis of plasma samples was achieved within 4.5 min. This validated method was successfully applied to study the pharmacokinetics of paracetamol and caffeine in human plasma.     

Determination of AR-42 enantiomeric purity by HPLC on chiral stationary phase

A sensitive and accurate liquid chromatographic method for the determination of AR-42 enantiomeric purity has been developed and validated. Baseline separation with a resolution higher than 1.9 was accomplished within 10 min using a CHIRALPAK AD column (250 mm × 4.6 mm; particle size 5 μm) and n-hexane/2-propanol/diethylamine (75:25:0.1 v/v/v) as mobile phase at a flow rate of 1 mL min^?1. Eluted analytes were monitored by UV absorption at 260 nm. The effects of mobile phase components, temperature and flow rate on enantiomeric selectivity and resolution of enantiomers were investigated. Calibration curves were plotted within the concentration range between 0.001 and 0.5 mg mL^?1 (n = 10), and the recoveries between 98.23 and 101.87% were obtained, with relative standard deviation lower than 1.31%. Limit of detection and limit of quantitation for AR-42 were 0.39 and 1.28 μg mL^?1 and for its enantiomer were 0.36 and 1.19 μg mL^?1, respectively. It was demonstrated that the developed method was accurate, robust and sensitive for the determination of enantiomeric purity of AR-42, especially for the analysis of bulk samples.     

Highly sensitive electrocatalytic determination of pyrazinamide using a modified poly(glycine) glassy carbon electrode by square-wave voltammetry

A new voltammetric sensor based on electropolymerization of glycine at glassy carbon electrode (GCE) was developed and applied to determine of pyrazinamide (PZA) by square-wave voltammetry (SWV). The initial cyclic voltammetric studies showed an electrocatalytic activity of poly(Gly)/GCE on redox system of pyrazinamide in 0.1 mol L^?1 phosphate buffer solution pH 7.5, with E _Pc and E _Pa in ?0.85 and ?0.8 V (versus E _Ag/AgCl), respectively. Studies at different scan rates suggest that the redox system of pyrazinamide at poly(Gly)/GCE is a process controlled by diffusion in the interval from 10 to 100 mV s^?1. Square-wave voltammetry-optimized conditions showed a linear response of PZA concentrations in the range from 0.47 to 6.15 μmol L^?1 (R?=?0.998) with a limit of detection (LOD) of 0.035 μmol L^?1 and a limit of quantification (LOQ) of 0.12 μmol L^?1. The developed SWV-poly(Gly)/GCE method provided a good intra-day (RSD?=?3.75 %) and inter-day repeatability (RSD?=?4.96 %) at 4.06 μmol L^?1 PZA (n?=?10). No interference of matrix of real samples was observed in the voltammetric response of PZA, and the method was considered to be highly selective for the compound. In the accuracy test, the recovery was found in the range of 98.2 and 104.0 % for human urine samples and pharmaceutical formulation (tablets). The PZA quantification results in pharmaceutical tablets obtained by the proposed SWV-poly(Gly)/GCE method were comparable to those found by official analytical protocols.     

Determination of Enantiomeric Purity of GSK962040 Based on Liquid Chromatography Using Chiral Stationary Phase Combined with a Pre-column Derivatization Procedure

A sensitive and accurate LC method was developed and further validated for the determination of enantiomeric purity of GSK962040. Before separation, a pre-column derivatization procedure was performed. Baseline separation with a resolution higher than 1.9 was accomplished within 15 min using a Chiralpak AD-H (250 × 4.6 mm; particle size 5 μm) column, with n-hexane: 2-propanol (85:15 v/v) as mobile phase at a flow rate of 1 mL min^?1. The eluted analytes were subsequently detected with a UV detector at 260 nm. The effects of mobile phase components and temperature on enantiomeric selectivity as well as resolution of enantiomers were thoroughly investigated. The calibration curves were plotted within the concentration range between 4 and 200 μg mL^?1 (n = 8), and recoveries between 98.15 and 101.48% were obtained, with relative standard deviation (RSD) lower than 1.42%. The LOD and LOQ for the Boc-GSK962040 were 1.23 and 4.15 μg mL^?1 and for its enantiomer were 1.38 and 4.76 μg mL^?1, respectively. The developed method was also evaluated and validated by analyzing bulk samples with different enantiomeric ratios of GSK962040. It was demonstrated that the method was accurate, robust and sensitive, and also had practical utilities for real analysis.     

LC–MS/MS method for the quantification of masitinib in RLMs matrix and rat urine: application to metabolic stability and excretion rate

Masitinib (MST) is a selective tyrosine kinase inhibitor. Validated liquid chromatography tandem mass spectrometric method (LC–MS/MS) was developed for the quantification of MST in rat liver microsomes (RLMs) matrix. The developed method was applied to metabolic stability and excretion rate studies. Reversed phase liquid chromatography was used for resolution of MST and bosutinib (IS) using C₁₈ (50 mm × 2.1 mm, 1.8 μm). Binary solvent system consisted of 35% solvent A (0.1% formic acid in H₂O, pH: 3.2) and 65% solvent B (acetonitrile) used as mobile phase at flow rate of 0.25 mL with a total run time of 5 min. Injection volume was 5 µL. Generation of ions was done in positive ESI source and quantification of MST and IS were done using MRM mode. The developed method showed a linearity in the range of 5–200 ng/mL (r² ≥ 0.9992) with LOQ and LOD of 0.25 and 0.76 ng/mL in RLMs. The intra- and inter-day precision and accuracy ranged from 0.95 to 1.49 and ? 5.22 to 1.13%, respectively in RLMs. Rate of disappearance of MST during incubation with RLMs was almost linear allover incubation time. In vitro t_1/2 was 50.38 min and CL_in was 3.11 ± 0.2. The developed method was applied also to measure the rate of masitinib excretion in rat urine. The method can used for further pharmacokinetic studies of MST.     

Microemulsion high performance liquid chromatography method for the determination of ibuprofen in the presence of preservatives and impurities in oral pediatric suspension

A simple and rapid isocratic oil-in-water microemulsion HPLC method (MELC) has been developed for the analysis of ibuprofen in oral suspension formulation. The method was optimized for simultaneous separation and determination of Ibuprofen and its related compound C (Imp C), sodium benzoate, methylparaben, propylparaben and their related compound A (Imp A). The optimum conditions were achieved by testing several columns and mobile phase compositions, while the chromatographic parameters (retention time, plate number, tailing factor and resolution) were measured. The six compounds were successfully separated within a run time of 14 min, using Eurospher II C18 (150 mm × 4.6 mm i.d., 5 µm) at ambient temperature, a mobile phase made of 5.0 g SDS, 6.6 g butan-1-ol, 0.8 g n-heptane in 100 mL of 0.05% TFA. Flow rate was fixed to 1 mL min^?1 and wavelength detection to 254 nm. The same phase was used in UHPLC and monolithic columns. A rapid comparison of system suitability between the three methods was made. The HPLC method was validated following ICH guidelines in terms of selectivity, linearity, accuracy and precision. The developed method was successfully applied to a commercial pharmaceutical formulation which shows that it can be used for routine analysis.     

Assay of Diastereoisomers of Cefuroxime Axetil in Amorphous and Crystalline Forms Using UHPLC-DAD

A sensitive UHPLC-DAD method was developed for determination of diastereoisomers of cefuroxime axetil in bulk substance in amorphous and crystalline forms as well as in pharmaceutical preparations. Chromatographic separation was achieved on Kinetex C-18 (100 mm × 2.1 mm, 1.7 µm) column with mobile phase consisting of 0.1 % formic acid:methanol (88:12, v/v), at the flow rate of 0.7 mL min⁻¹ and total run time of 3 min. The wavelength of the DAD detector was set at 278 nm. Inter-day precision (RSD) was less than 3 % and accuracy level ranged between 98.31 and 104.99 %. Degradation products of cefuroxime axetil in aqueous solutions and in the solid state were identified with a EIS-Q-MS mass spectrometer. The solubility of above-mentioned polymorphic forms of cefuroxime axetil in suitable solvents is a crucial factor during preparation of samples and is essential for chromatographic separation of its diastereoisomers.

     

Biosynthesis,characterization, and antimicrobial effect of silver nanoparticles obtained using <Emphasis Type="Italic">Lavandula</Emphasis> × <Emphasis Type="Italic">intermedia</Emphasis>

The use..... of aqueous leaf extract of Lavandula × intermedia for biosynthesis of silver nanoparticles (AgNPs) is presented. The plant extract was obtained by boiling dried leaves and using the obtained filtrate for the synthesis of AgNPs. The study was conducted to investigate an ecofriendly approach to metal nanoparticle synthesis and to evaluate the antimicrobial potential of both the aqueous plant extract and resulting silver nanoparticles against different microbes using the disc diffusion method. The synthesis of silver nanoparticles was monitored using ultraviolet–visible (UV–v is) spectroscopy, which showed a localized surface plasmon resonance band at 411 nm and a shift of the band to higher wavenumber of 422 nm after 90 min of reaction. Powder X-ray diffraction analysis and transmission electron microscopy of the obtained AgNPs revealed their crystalline nature, with average size of 12.6 nm. Presence of elemental silver was further confirmed by energy-dispersive X-ray spectroscopy. Fourier-transform infrared spectroscopy confirmed presence of phytochemicals from Lavandula × intermedia leaf extract on the AgNPs. The AgNPs showed good antimicrobial activity with inhibition zone ranging from 10 to 23 mm; the largest inhibition zone (23 mm) occurred against Escherichia coli. Generally, the AgNPs displayed more antimicrobial activity against all investigated pathogens compared with Lavandula × intermedia leaf extract, and were also more active than streptomycin against Klebsiella oxytoca and E. coli at the same concentration. The silver nanoparticles showed prominent antimicrobial activity with a lowest minimum inhibitory concentration (MIC) value of 15 μg/mL against E. coli, K. oxytoca, and Candida albicans.     

LC Assay of Eletriptan in Tablets and In Vitro Dissolution Studies

Eletriptan (ELT) is a new selective serotonin agonist approved for the treatment of acute migraine headaches. A simple and rapid liquid chromatographic method was developed and validated for the assay of ELT in tablets. Chromatography was carried out on a 250 mm × 4.6 mm C₁₈ column at 30 °C. Acetonitrile–15 mM triethylamine solution (adjusted to pH 7.0 using concentrated o-phosphoric acid) (60:40, v/v) mixture was used as mobile phase at 1.0 mL min^?1 flow rate and UV detector was set at 225 nm. A linear response (r ²  = 0.9999) was observed in the range of 0.1–1.6 μg mL^?1. The method showed good recoveries (100.08 %) and the RSD values for intra- and inter-day precision were 0.78–1.93 and 1.10–2.15%, respectively. The method can be used for quality control assays and in vitro dissolution studies of ELT in tablets.     

Determination of Organic Acids in Red Wine and Must on Only One RP-LC-Column Directly After Sample Dilution and Filtration

A new method for simultaneous determination of organic acids in red wine and must by liquid chromatography was studied. The determination of organic acids in wines can be achieved in less than 13 min, preceded only by a simple sample dilution and filtration step. With this method, the chromatographic separation of eight organic acids and interfering peaks present in red wine, required only one reversed phase column (Waters Atlantis dC18 column, 4.6 × 150 mm ID, 5 μm). As mobile phase, isocratic acetonitrile–0.01 mol L^?1 KH₂PO₄ at pH 2.7 5:95 (v/v) at a flow rate of 0.8 mL min^?1 was used. Detection wavelength was set at 210 nm except for ascorbic acid which was detected at 243 nm. Application to red wine and must confirmed good repeatability and showed a wide variation range for concentrations of organic acids.