Comparison of a DS-horizontal chamber and a new Smin chamber in TLC separation

The chromatographic characteristics of a popular DS-horizontal chamber (Chromdes, Poland) and an S_min chamber with a minimum gas volume (Institute of Petrochemical Synthesis of the Russian Academy of Sciences) have been experimentally evaluated.     

The chromatographic processes in the S-chamber with the counter plate

For the first time the chromatographic processes in the new variant of a S(min)-chamber with a counter plate (a S(min)(CP)-chamber) positioned at a small distance above a separating plate have been studied, given the adsorption layers of the both plates (the separating plate and the counter plate) are turned to each other. It should be noted that the features of this method have not been completely studied, only two publications were devoted to the practical using of the S(CP)-chamber. Using of a dry counter plate in the S(min)-chamber having been proposed by us recently leads to the marked increase in the volume of the mobile phase that continuously migrates through the separating plate. Using of the S(min)-chamber with the dry counter plate for separation allows, first, substantially (up to 50%) increasing the value of R(f) (especially, in the range of the small meanings of R(f) (0-0.3)), second, increasing the efficiency of separation by 2.0-2.5 times, and, third, increasing the peak resolution of the method by ～25%. It should be noted that although when separating a mixture in the S(min)(CP)-chamber a slight increase in the experiment duration also occurs (by 20-50% depending on the sizes of the used plate), in all the cases chromatographic characteristics markedly improve (in comparison with separation in the same conditions, but without using of the counter plate).     

Cone thin-layer chromatography

A new variant of chromatography, cone chromatography, is suggested. In this variant, a thin-layer chromatography (TLC) plate on a flexible support (for example, foil) is cone-shaped. This variant is compared with the classic linear and circular variants using chromatographic characteristics (retardation factor R _f and efficiency H, μm) and the time of chromatographing with ethanol as a mobile phase. Cone chromatography is intermediate in the series linear-cone-circular TLC variants.     

A Validated LC Method for Determination of the Enantiomeric Purity of Montelukast Sodium in Bulk Drug Samples and Pharmaceutical Dosage Forms

A new and accurate chiral liquid chromatographic method has been developed for determination of the enantiomeric purity of montelukast sodium (R enantiomer) in bulk drugs and dosage forms. Normal phase chromatographic separation was performed on an immobilized amylose-based chiral stationary phase with n-hexane–ethanol–1,4-dioxane–trifluoroacetic acid–diethylamine 65:25:10:0.3:0.05 (v/v) as mobile phase at a flow rate of 1.0 mL min^?1. The elution time was approximately 15 min. The resolution (R _S) between the enantiomers was >3. The mobile phase additives trifluoroacetic acid and diethylamine played a key role in achieving chromatographic resolution between the enantiomers and also in enhancing chromatographic efficiency. Limits of detection and quantification for the S enantiomer were 0.07 and 0.2 μg, respectively, for a test concentration of montelukast sodium of 1,000 μg mL^?1 and 10 μL injection volume. The linearity of the method for the S enantiomer was excellent (R ² > 0.999) over the range from the LOQ to 0.3%. Recovery of the S enantiomer from bulk drug samples and dosage forms ranged from 97.0 to 103.0%, indicative of the high accuracy of the method. Robustness studies were also conducted. The sample solution stability of montelukast sodium was determined and the compound was found to be stable for a study period of 48 h.     

Determination of Selected Quinolones and Fluoroquinolones by Use of TLC

Abstract

There are many different methods of quinolones determination. The most often used method of quinolones analysis is liquid chromatography. In this work some selected quinolones (cinoxacin, pipemidic acid) and fluoroquinolones (ofloxacin, pefloxacin) were separated with thin-layer chromatography (TLC). The two different mobile phases were used as follows: buffer solution (pH = 5.5)-methanol, 40:10 (v/v) and acetonitrile-water-acetic acid, 6:40:4 (v/v/v), respectively, for quinolones and fluoroquinolones. The following chromatographic parameters were calculated for these separations: R_F, ?R_F, R_M, and R_S. The possibility of qualitative determination of cinoxacin, pipemidic acid, ofloxacin, and pefloxacin using TLC was shown.     

Stability‐indicating chromatographic methods for determination of flecainide acetate in the presence of its degradation products; isolation and identification of two of its impurities

In this work, two stability‐indicating chromatographic methods have been developed and validated for determination of flecainide acetate (an antiarrhythmic drug) in the presence of its degradation products (flecainide impurities; B and D). Flecainide acetate was subjected to a stress stability study including acid, alkali, oxidative, photolytic and thermal degradation. The suggested chromatographic methods included the use of thin layer chromatography (TLC‐densitometry) and high‐performance liquid chromatography (HPLC). The TLC method employed aluminum TLC plates precoated with silica gel G.F₂₅₄ as the stationary phase and methanol–ethyl acetate–33% ammonia (3:7:0.3, by volume) as the mobile phase. The chromatograms were scanned at 290 nm and visualized in daylight by the aid of iodine vapor. The developed HPLC method used a RP‐C₁₈ column with isocratic elution. Separation was achieved using a mobile phase composed of phosphate buffer pH 3.3–acetonitrile–triethylamine (53:47:0.03, by volume) at a flow rate of 1.0 mL/min and UV detection at 292 nm. Factors affecting the efficiency of HPLC method have been studied carefully to reach the optimum conditions for separation. The developed methods were validated according to the International Conference on Harmonization guidelines and were applied for bulk powder and dosage form. Copyright © 2016 John Wiley & Sons, Ltd.     

Analysis of gardenia blue in foods by thin-layer chromatography

In the present study, a thin-layer chromatography (TLC) method for the analysis of gardenia blue was described. Gardenia blue is obtained from the fruits of Gardenia augusta Merrill or Gardenia jasminoides Ellis. Recently, gardenia blue has frequently been used in Japan as a natural coloring in various foods. However, the structural characterization of gardenia blue components has not been yet clarified and even chromatographic separation of the components has not been reported. Synthetic colors in foods are generally analyzed by TLC; so, we therefore investigated the analysis of gardenia blue in foods with TLC. We established two TLC conditions; reversed phase C-18 TLC using a solvent system of aqueous 0.2% TFA–acetonitrile–ethanol (1:2:3) and TLC on cellulose plate using a solvent system consisting of acetone–3-methyl-1-butanol–water (6:5:5). Both conditions yielded three well-delineated spots with good separation. We applied these separations to the analyses of gardenia blue in coloring matter preparations from different manufacturers and in foods on the market. After the gardenia blue was extracted from the samples with water, the extract was evaporated and the residue was dissolved in water–methanol (1:1). Aliquots of the dissolved solutions were then applied to TLC and their chromatographic behaviors were observed. Each preparation showed characteristic spot patterns depending on the manufacturers. The R_f values of the separated spots when extracted from foods are slightly different from the R_f values of the spots observed for standards, and we were thus able to identify the manufacturers using the spot pattern of gardenia blue. The present study is considered to be useful for the establishment of a method of analysis for gardenia blue in coloring preparations and foods.     

Comparison of Two Stability-Indicating Chromatographic Methods for the Determination of Mirabegron in Presence of Its Degradation Product

Mirabegron is a novel β₃-adrenoceptor agonist containing an amide group. It was subjected to stress conditions of acidic and alkaline hydrolyses. The hydrolytic degradation product was isolated and its structure was confirmed using mass and IR spectrometry. Two stability-indicating chromatographic methods have been proposed for the determination of mirabegron. TLC method was applied using silica gel as stationary phase and chloroform–methanol–ammonia (9.0:1.0:0.1 by volume) as the mobile phase, and chromatograms were scanned at 250 nm. Accurate determination of the drug was achieved over the concentration range of 2–12 μg per band. In addition, an isocratic HPLC method was developed on Agilent C18 column (150 mm × 4.5 mm I.D., particle size 5 µm) using ethanol-phosphate buffer pH 2.5 (30:70, by volume) as a mobile phase with flow rate of 1 mL min^?1.The intact drug was detected at 250 nm with running time less than 5 min. Mirabegron was determined accurately in a concentration range of 1–25 µg mL^?1. The proposed chromatographic methods were applied successfully for the assay of mirabegron in pharmaceutical dosage form and both methods were validated as per the International Conference on Harmonization guidelines and statistically compared with a reported gradient HPLC method.     

Miniaturization of a standard liquid chromatographic system

Summary Methods for the construction of micro-columns equipped with low dead volume end fittings and an easy way to miniaturize a standard flow-cell to a volume of 0.67 mm³ are described. Operation characteristics of the microcolumns were evaluated by plate height versus linear velocity and plate height versus capacity factor plots. The influence of the volume of the flow-cell on the resolution is also demonstrated. An improvement of the resolution factor (R_S) from 0.9 to 1.45 between sulphapyridine and sulphamerazine was obtained by using the 0.67 mm³ flow-cell instead of the 12.5 mm³ original flow-cell. The influence of the sample volume on the separation efficiency is also shown.     

Structural variation of solid core and thickness of porous shell of 1.7 μm core-shell silica particles on chromatographic performance: narrow bore columns

Chromatographic and mass transfer kinetic properties of three narrow bore columns (2.1 × 50 mm) packed with new core–shell 1.7 μm EIROSHELL™-C₁₈ (EiS-C₁₈) particles have been studied. The particles in each column varied in the solid-core to shell particle size ratio (ρ), of 0.59, 0.71 and 0.82, with a porous silica shell thickness of 350, 250 and 150 nm respectively. Scanning and transmission electron microscopy (SEM and TEM), Coulter counter analysis, gas pycnometry, nitrogen sorption analysis and inverse size exclusion chromatography (ISEC) elucidated the physical properties of these materials. The porosity measurement of the packed HILIC and C₁₈ modified phases provided the means to estimate the phase ratios of the three different shell columns (EiS-150-C₁₈, EiS-250-C₁₈ and EiS-350-C₁₈). The dependence of the chromatographic performance to the volume fraction of the porous shell was observed for all three columns. The naphtho[2,3-a]pyrene retention factor of k′ ∼ 10 on the three EiS-C_18s employed to obtain the height equivalents to theoretical plates (HETPs) data were achieved by varying the mobile phase compositions and applying the Wilke and Chang relationship to obtain a parallel reduced linear velocity. The Knox fit model gave the coefficient of the reduce HETPs for the three EiS-C_18s. The reduced plate height minimum h_min = 1.9 was achieved for the EiS-150-C₁₈ column, and generated an efficiency of over 350,000 N/m and h_min = 2.5 equivalent to an efficiency of 200,000 N/m for the EiS-350-C₁₈ column. The efficiency loss of the EiS-C18 column emanating from the system extra-column volume was discussed with respect to the porous shell thickness.     

Determination of Lipophilic Character of a Series of Dermorphin-Related Oligopeptioes by Means of Reversed-Phase HPLC

Abstract

In recent times there has been a growing interest in the determination of chromatographic parameters of lipophilicity with regard to their use in the study of quantitative structure-activity relationship (1, 2). Very good correlations had been shown between the chromatographic parameters and the log P or π values as a measure of the partition coefficient between octanol and water (2). The reversed phase TLC R_m values in two different chromatographic systems and the reversed-phase HPLC log k′ values of a series of dermorphin-related oligopeptides have been previously determined (3, 4). The purpose of the present work was to study the relationship between log k′ values on one hand and R_m or ^Σπ values on the other one in view of QSAR studies. In fact the discovery of enkephalin and endorphins with high affinities for opioid receptors added new dimensions to the study of structure-activity relationship of opioid agonists (5, 6, 7, 8).     

Validated chiral chromatographic methods for Clopidogrel bisulphate and its related substances in bulk drug and pharmaceutical dosage forms

Two validated chromatographic methods developed for the analysis of S Clopidogrel bisulphate in the presence of its related substances listed in the United States and British Pharmacopoeias including its inactive R enantiomer are described. The first method is a simple thin layer chromatographic (TLC) method where separation is performed on pre-coated silica gel 60 F254 plates using methanol/diethylamine/heptanes/water containing 20 mg vancomycin hydrochloride (7 : 7 : 1.5 : 0.5 vol. %) as a mobile phase. R_f values were found to be 0.69, 0.74, 0.78, 0.84 and 0.88 for R clopidogrel, S clopidogrel, related substances A, B1 and B2, respectively. The second method depends on the separation by HPLC on a Lux polysaccharide chiral column with UV detection at 220 nm using 0.1 vol. % diethyl amine in methanol pumped at a rate of 1 mL min^?1. Retention times were found to be 1.90 min, 2.82 min, 3.00 min, 3.27 min and 3.71 min for the related substances A, B1, C which are clopidogrel R enantiomer, B2, and S clopidogrel, respectively. The proposed methods were validated in accordance with the ICH guidelines and successfully applied to the determination of S clopidogrel bisulphate in pure powder and dosage forms without interference from the excipients and to affirm the dosage form to be pure S clopidogrel and devoid of the R enantiomer, which is inactive.     

Imaging and Quantitation of One and Two Dimensional TLC With a New Radioanalytic Imaging System

Abstract

A new method for the imaging and quantitation of radiolabeled substrates fractionated on one or two dimensional (2D) TLC plates has been developed. The TLC sample is read by a microcomputer-controlled beta- and gamma-sensitive gas proportional counter. The TLC plate is scanned by a 20 × 20 cm array of 952 individual detector elements, and the resulting quantitative image is displayed on a high resolution monitor for analysis. Individual radioactive spots may be quantitated on-screen.     

Capillary gas chromatographic analysis of highly brominated fire retardant compounds

We report the development of a capillary gas chromatographic method, superior to existing packed column methods, for the analysis of highly brominated additive fire-retardants, including decabromodiphenyl ether (1) and decabromodiphenoxyethane (II). Neither compound has been analyzed previously by capillary GC, and there are no published methods for (II). For (I), the new method is 5–10 times faster than an analogous packed column method, and it has 100 times lower detection limits and twice the precision of a gas chromatographic/mass spectrometric method. For (II), the capillary method is 30–50% faster than an unpublished liquid chromatographic method. The greater efficiency of the capillary method makes possible the complete resolution (R ≥ 1.25) of structurally very similar compounds (e.g. compound (II) and its Br₉Cl₁ and Br₈Cl₂ analogues). With the new method, commercial preparations of (I) and (II) can be rapidly analyzed, and samples from combustion and pyrolysis experiments can be evaluated for compositional changes.     

Baclofen impurities: Facile synthesis and novel environmentally benign chromatographic method for their simultaneous determination in baclofen

An efficient, economic and high yielding method was described for the synthesis of baclofen (BAC) pharmacopoeial impurities (impurity A and impurity B) which can be used for gram‐scale synthesis. Furthermore, a novel ecofriendly thin‐layer chromatographic TLC–densitometric method was established and validated for the determination of BAC and its synthesized impurities. The developed TLC–densitometric method is based on the chromatographic separation using TLC plates (60 F₂₅₄) using a green mobile phase of ethyl acetate–methanol–ammonia solution, 33% (8:2:0.1, by volume) with UV scanning at 220 nm. The proposed method was validated with respect to International Conference on Harmonization guidelines. The validated method was successfully applied for determination of BAC in pure form and in its commercial dosage form. Additionally, the greenness profile of the developed method was evaluated and compared with those of the reported chromatographic methods. The developed method was found to be superior to the published methods, being environmentally benign.     

Diterpenoic Acids Analysis Using a Coupled TLC-Surface-Enhanced Raman Spectroscopy System

Hyphenation of thin layer chromatography (TLC) with surface-based spectral methods requires a homogeneous surface for direct and quantitative analysis on the chromatographic plate after separation. Since most chromatographic materials do not produce strong background signals in Raman spectroscopy (RS) or surface-enhanced RS (SERS), we tested the suitability of two different chromatographic substrates and one interface for coupling SERS with TLC. This was carried out by using a chromatographic thin layer, specially produced for RS measurements, and a monolithic silica thin layer. A typical TLC plate with a modified aluminium backplate foil on one side was used as an interface. Three biologically active diterpenes, namely gibberellic acid (GA), abietic acid (AA) and kaurenoic acid (KA), were used as test analytes. Stock solutions were applied directly onto the surface, followed by the addition of silver colloid and measurements were taken by SERS. The strongest signal (excitation at 514.5 nm) was obtained for GA using a Raman treated thin layer where the enhancement factor value was determined to be 10². Several fundamental Raman bands for GA were found at 1622, 1593, 1570, 1542, 1366 and 1236 cm⁻¹. When the monolithic silica layer was used, no useful SERS signals were observed. The SERS spectra on modified aluminium backplate for AA and GA were quite similar and no SERS spectrum was obtained for KA. Future research will be concerned towards the use of nanostructured surfaces for SERS analysis. An erratum to this article can be found at     

A Validated LC Method for Determination of the Enantiomeric Purity of Darifenacin in Bulk Drug and Extended Release Tablets

A new and accurate chiral liquid chromatographic method has been developed for the determination of enantiomeric purity of darifenacin [(S)-enantiomer] in bulk drugs and extended release tablets. Normal phase chromatographic separation was performed on an immobilized cellulose based chiral stationary phase (Chiralpak-IC) with n-hexane:ethanol:diethylamine (50:50:0.3, v/v/v) as mobile phase at a flow rate of 1.0 mL min⁻¹. The elution time was ~15 min. The resolution (R _s ) between the enantiomers was greater than four and interestingly the (R)-enantiomer was eluted prior to darifenacin in the developed method. The limit of detection (LOD) and limit of quantification (LOQ) for the (R)-enantiomer were 0.02 μg and 0.07 μg, respectively, for a 10 μL injection volume. The method was extensively validated in terms of linearity, precision and accuracy and satisfactory results were obtained. Robustness studies were also conducted. The sample solution stability of darifenacin was determined and the compound was found to be stable for a study period of 48 h.

     

Rapid Preparation and Easy Quality Control Procedures for 99mTc‐Tin‐Nano Colloid: A Lymphoscintigraphic Agent

^99mTc‐Tin‐nano colloid is a radiopharmaceutical that can be useful in evaluation of the patients with breast cancer. The current method for preparation requires a lengthy boiling water bath procedure, and the recommended quality control procedure is cumbersome and time consuming. Using a microwave oven, the heating time necessary to provide a maximum labeling efficiency has been reduced to 10 second. A new mini paper chromatography (MPC) system has been developed to analyze the radiochemical purity (RCP) of the labeled preparation involving two different developing solvents. The recommended thin layer chromatography (TLC) system involving the use of an Al₂O₃ coated plate requires an average time for drying and development of 34.5 ± 0.44 min (n = 30) to complete, whereas the new MPC system has an average developing time of 2.1 ± 0.2 min (n = 20). For RCP values the MPC and TLC methods are correlated closely (r = 0.94). The combined use of the microwave oven heating method and over quick quality control system will facilitate the rapid emergency use of ^99mTc‐Tin‐nano colloid.     

A Validated LC Method for Determination of the Enantiomeric Purity of Darifenacin in Bulk Drug and Extended Release Tablets

A new and accurate chiral liquid chromatographic method has been developed for the determination of enantiomeric purity of darifenacin [(S)-enantiomer] in bulk drugs and extended release tablets. Normal phase chromatographic separation was performed on an immobilized cellulose based chiral stationary phase (Chiralpak-IC) with n-hexane:ethanol:diethylamine (50:50:0.3, v/v/v) as mobile phase at a flow rate of 1.0 mL min^?1. The elution time was ~15 min. The resolution (R _s ) between the enantiomers was greater than four and interestingly the (R)-enantiomer was eluted prior to darifenacin in the developed method. The limit of detection (LOD) and limit of quantification (LOQ) for the (R)-enantiomer were 0.02 μg and 0.07 μg, respectively, for a 10 μL injection volume. The method was extensively validated in terms of linearity, precision and accuracy and satisfactory results were obtained. Robustness studies were also conducted. The sample solution stability of darifenacin was determined and the compound was found to be stable for a study period of 48 h.     

Gas Chromatographic Separation of Enantiomers on Optically Active Metal-Complex-Free Stationary Phases. New Analytical Methods (24)

If a stationary phase A employed in gas chromatography possesses a chemical affinity for substance B, which is to be separated, then the retention behavior is not only determined by the normal physical equilibrium between the gas and liquid phases but also by the chemical equilibrium A + B ? AB. If A and B are chiral and A is present in optically active form while B is a racemic mixture, then it is possible to achieve a gas chromatographic enantiomer resolution without the isolation of diastereomers: the energetically different diastereomeric associates A_R B_R and A_R B_S are formed rapidly and reversibly. This enantiospecific resolution principle was first demonstrated in 1966 by the quantitative resolution of racemic amino acid derivatives on optically active peptide phases in analogy to the well-known stereospecificity of enzymes. The anchoring of the chiral resolving agent to thermally stable polysiloxanes together with the employment of high resolution capillary columns and the use of appropriate derivatization strategies has led to the development of enantiomer resolution into a routine modern method for many classes of substances. The demonstration of enantiospecificity in the gas chromatographic separation process is of fundamental interest, and its systematic study can result in a significant contribution to the understanding of the molecular mechanism of “chiral recognition”. The gas chromatographic separation of enantiomers has also proven to be an accurate and sensitive method for the determination of the enantiomeric composition of natural products and products of enantioselective transformations (asymmetric syntheses, “chiral pool” transformations, kinetic resolutions, biomimetic reactions) and for the quantification of racemization, e.g. in the synthesis and hydrolysis of peptides. In any research program devoted to the phenomenon of chirality, the gas chromatographic separation of the enantiomers of volatile compounds constitutes an indispensable modern instrumental technique.