HPLC‐PDA‐ORD Bioassay of S‐(+) and R‐(−) Clopidogrel on Rat Dried Blood Spots

A simple and rapid chiral high‐performance liquid chromatography (HPLC) method was developed and validated for bioanalysis of clopidogrel enantiomers on rat dried blood spots (DBS). Clopidogrel enantiomers were extracted from DBS using ethanol: methanol (80:20, v/v) and separated on a Chiralcel OJ‐H column containing cellulose tris (4‐methly benzoate) as a polysaccharide stationary phase using n‐hexane–ethanol‐diethylamine (70:30, 0.1 v/v) as a mobile phase at a flow rate of 1.0 mL/min. The detection was carried out at 220 nm using a photodiode array (PDA) detector while the elution order of the enantiomers was determined by a polarimeter connected to PDA in series. The effect of hematocrit on extraction of clopidogrel enantiomers from DBS was evaluated and no interference from endogenous substances was noticed. The overall accuracy of (R) and (S) enantiomers of clopidogrel from DBS were 91.6 and 89.2%, respectively. The calibration curves were linear over the concentration range of 1–500 µg/mL for both enantiomers. The results show that the method is specific, precise, and reproducible (intra‐ and interday precision relative standard deviations (RSDs) <10.0%). The stability of racemic clopidogrel was performed under all storage conditions and the results were found to be well within the acceptance limits. Chirality 26:102–107, 2014.© 2014 Wiley Periodicals, Inc.     

A New Chiral Residue Analysis Method for Triazole Fungicides in Water Using Dispersive Liquid‐Liquid Microextraction (DLLME)

A rapid, simple, reliable, and environment‐friendly method for the residue analysis of the enantiomers of four chiral fungicides including hexaconazole, triadimefon, tebuconazole, and penconazole in water samples was developed by dispersive liquid–liquid microextraction (DLLME) pretreatment followed by chiral high‐performance liquid chromatography (HPLC)‐DAD detection. The enantiomers were separated on a Chiralpak IC column by HPLC applying n‐hexane or petroleum ether as mobile phase and ethanol or isopropanol as modifier. The influences of mobile phase composition and temperature on the resolution were investigated and most of the enantiomers could be completely separated in 20 min under optimized conditions. The thermodynamic parameters indicated that the separation was enthalpy‐driven. The elution orders were detected by both circular dichroism detector (CD) and optical rotatory dispersion detector (ORD). Parameters affecting the DLLME performance for pretreatment of the chiral fungicides residue in water samples, such as the extraction and dispersive solvents and their volume, were studied and optimized. Under the optimum microextraction condition the enrichment factors were over 121 and the linearities were 30–1500 µg L^?1 with the correlation coefficients (R²) over 0.9988 and the recoveries were between 88.7% and 103.7% at the spiking levels of 0.5, 0.25, and 0.05 mg L^?1(for each enantiomer) with relative standard deviations varying from 1.38% to 6.70% (n = 6) The limits of detection (LODs) ranged from 8.5 to 29.0 µg L^?1(S/N = 3). Chirality 25:567‐574, 2013. © 2013 Wiley Periodicals, Inc.     

Development of a nonchiral HPLC method with circular dichroism detection for chiral analysis of molybdenum-catalyzed enantioselective synthesis products

The combination of a circular dichroism detector and nonchiral liquid chromatography was used for the chiral analysis of unresolved enantiomers to determine the enantioselectivity of a molybdenum-catalyzed asymmetric allylic alkylation reaction. The CD/UV peak area ratio of the unresolved enantiomers was calculated and compared with that of a reference standard to determine the enantiomeric purity. The limit of quantitation (LOQ) is 20 ng for the chiral ligand and 1 microg for the branched chiral product. The viability of the system depends on the limit of quantitation of the CD response and the linearity range of the CD and UV response.     

Stereoselective determination of benalaxyl in plasma by chiral high-performance liquid chromatography with diode array detector and application to pharmacokinetic study in rabbits

A chiral high-performance liquid chromatography method with diode array detector was developed and validated for stereoselective determination of benalaxyl (BX) in rabbit plasma. Good separation was achieved at 20 degrees C using cellulose tris-(3,5-dimethylphenylcarbamate) as chiral stationary phase, a mixture of n-hexane and 2-propanol (97:3) as mobile phase at a flow rate of 1.0 ml/min. The assay method was linear over a range of concentrations (0.25-25 microg/ml) in plasma and the mean recovery was greater than 90% for both enantiomers. The limits of quantification and detection for both enantiomers in plasma were 0.25 and 0.1 microg/ml, respectively. Intra- and interday relative standard deviations (RSDs) did not exceed 10% for three-tested concentrations. The method was successfully applied to pharmacokinetic studies of BX enantiomers in rabbits. The result suggested that the pharmacokinetics of BX enantiomers was stereoselective in rabbits.     

High-performance liquid chromatographic analysis of the anti-tumor agent SCH 66336 in cynomolgus monkey plasma and evaluation of its chiral inversion in animals

SCH 66336 is a novel non-cytotoxic anti-tumor agent that is in phase I/II clinical trials for the treatment of solid tumors. This compound is a single enantiomer with one chiral center. Prior to evaluation of this drug candidate in man, it was necessary to evaluate its pharmacokinetics and possible chiral inversion in animals. Thus, high-performance liquid chromatographic (HPLC) methods have been developed for its determination in cynomolgus monkey plasma and for the evaluation of its chiral inversion in rats and cynomolgus monkeys. The achiral HPLC analysis involved extraction with 30% methylene chloride in hexane followed by separation on a CN column and quantitation by UV absorbance at 280 nm. The method was linear over a concentration range of 0.1 to 20 μg/ml in monkey plasma. The chiral HPLC analysis involved the use of a Chiralpak AD column set at 39°C with a mobile phase of hexane–ethanol–diethylamine mixture and a UV detector set at 280 nm. Plasma samples were subjected to solid-phase extraction on a C₂ cartridge prior to HPLC analysis. The method was linear over a concentration range of 0.25 to 10 μg/ml in rat and cynomolgus monkey plasma for both enantiomers. Both methods showed good linearity (r²>0.99), accuracy (bias<13%) and precision (CV<12%). Chiral HPLC analysis indicated that SCH 66336 was not subjected to chiral inversion in rats and cynomolgus monkeys     

High-performance liquid chromatography determination of praziquantel enantiomers in human serum using a reversed-phase cellulose-based chiral stationary phase and disc solid-phase extraction

A sensitive HPLC method for the quantification of praziquantel enantiomers in human serum is described. The method involves the use of a novel disc solid-phase extraction for sample clean-up prior to HPLC analysis and is also free of interference from trans-4-hydroxypraziquantel, the major metabolite of praziquantel. Chromatographic resolution of the enantiomers was performed on a reversed-phase cellulose-based chiral column (Chiralcel OJ-R) under isocratic conditions using a mobile phase consisting of 0.1 M sodium perchlorate–acetonitrile (66:34, v/v) at a flow-rate of 0.5 ml/min. Recoveries for R-(−)- and S-(+)-praziquantel enantiomers were in the range of 84–89% at 50–500 ng/ml levels. Intra-day and inter-day precisions calculated as R.S.D. were in the ranges of 3–8% and 1–8% for both enantiomers, respectively. Intra-day and inter-day accuracies calculated as percent error were in the 0.2–5% and 0.3–8% ranges for both enantiomers, respectively. Linear calibration curves were in the concentration range 10–600 ng/ml for each enantiomer in serum. The limit of quantification of each enantiomer was 10 ng/ml. The detection limit for each enantiomer in serum using a UV detector set at 210 nm was 5 ng/ml (S/N=2).     

Determination of enantiomeric excess of nipecotic acid as 1‐(7‐nitrobenzo[c][1,2,5]oxadiazol‐4‐yl) derivatives

For the enantiopure synthesis of novel chiral GABA uptake inhibitors, nipecotic acid ( 1 ) is an important key precursor. To characterize accurately the pharmacological activity of these interesting target compounds, the determination of the correct enantiomeric purity of nipecotic acid as the starting material is indispensable. In this report, a sensitive high‐performance liquid chromatography (HPLC) based method for the separation and quantitation of both enantiomers of nipecotic acid as 1‐(7‐nitrobenzo[c ][1,2,5]oxadiazol‐4‐yl) derivatives ( 5 ) on a Chiralpak ID‐3 column (Daicel, Illkirch, France) was established. UV/Vis‐detection at 490 nm was chosen to ensure a selective determination of even highly enantioenriched samples. Reliability was demonstrated by validation of specificity, linearity, lower limit of quantification (LLOQ), accuracy, and precision. By spiking highly enantiopure samples with small amounts of racemic rac ‐ 5 , it was proven that the established HPLC method is able to detect even slight changes in enantiomeric excess (ee) values. Thus, accurate determination of ee values up to 99.87% ee for (R )‐ 5 and 99.86% ee for (S )‐ 5 over a linear concentration range of 1– 1500 μM for (R )‐ 5 and of 1– 1455 μM for (S )‐ 5 could be demonstrated.     

Determination of serum thyroxine enantiomers in patients by liquid chromatography with a chiral mobile phase

A chromatographic method for the separation and determination of D- and L-thyroxine enantiomers (D-, and L-T4) in human serum with a chiral ligand ion-exchange system using a chiral mobile phase additive and a silica column was established. An aqueous eluent containing L-proline (L-pro) sufficiently complexed copper II ions and triethylamine (TEA) was used. It was monitored with a UV detector. The separation was completed in 12 min. The method has acceptable sensitivity, precision and accuracy for analysis. The limit of detection and the limit of quantitation for both D- and L-T4 were 0.1 microg/ml and 0.8 microg/ml, respectively. Calibration curves were linear within 1-100 microg/ml; the mean correlation coefficients were r(D-T4)=0.9986 for D-T4 and r(L-T4)=0.9978 for L-T4. T4 enantiomers were separated on baseline under the optimum condition. L-T4 eluted before D-T4. The concentration of D-T4 and L-T4 in 45 thyroid patients serum (hyperthyroid, hypothyroid, thyroidectomy, goitre or thyroiditis) using HPLC was determined, those results showed that D,L-T4 concentration varied in different thyroid patient. Attention should be paid to this result in treating thyroid disease in the clinic.     

Synthesis,Chiroptical Properties and Density Functional Theory Calculations of 3,3’‐Biphenyl‐2,2’‐BiTropone

The synthesis of new bitropone derivatives, namely, 3,3'‐biphenyl‐2,2'‐bitropone and 7,7’‐biphenyl‐2,2'‐bitropone, are reported. Isolation of enantiomers arising from restricted rotation around the C‐C bond connecting the tropone moieties was attempted by means of chiral high performance liquid chromatography (HPLC). No separation was obtained for 7,7’‐biphenyl‐2,2'‐bitropone. For 3,3'‐biphenyl‐2,2'‐bitropone, difficulties were encountered because of the low separation factor of the peaks and the presence of a rapid racemization process. However, quantitative chiroptical data on the antipodes were obtained by linking a circular dichroism (CD) spectrometer and a UV–vis spectrophotometric detector in series to the HPLC instrument. The analysis of the CD and UV–vis spectra in terms of absolute conformations was done with the help of theoretical calculations performed at the Density Functional Theory (DFT) level. The most stable conformations of the 3,3'‐biphenyl‐2,2'‐bitropone in its ground state were obtained. Starting from these minimum energy conformations, it was possible to compute theoretical CD and UV absorption spectra that fit well with the experimental ones. From this comparison the absolute configuration to the antipodes was assigned. Finally, the effect of the presence of the two lateral phenyl substituents on the structure of the bitropone and hence on the CD spectrum is discussed. Chirality 25:648–655, 2013. © 2013 Wiley Periodicals, Inc.     

Stereoselective HPLC analysis of tertatolol in rat plasma using macrocyclic antibiotic chiral stationary phase

Enantiomeric resolution of teratolol was achieved on a vancomycin macrocyclic antibiotic chiral stationary phase known as Chirobiotic V with UV detection set at 220 nm. The polar ionic mobile phase (PIM) consisted of methanol-glacial acetic acid-triethylamine (100:0.01:0.015, v/v/v) has been used at a flow rate of 0.8 ml min(-1) . The calibration curves in plasma were linear over the range of 5-500 ng ml(-1) for each enantiomer with detection limit of 2 ng ml(-1) . The proposed method was validated in compliance with the international conference on harmonization (ICH) guidelines. The developed method applied for the trace analyses of tertatolol enantiomers in plasma and for the pharmacokinetic study of tertatolol enantiomers in rat plasma. The assay proved to be suitable for therapeutic drug monitoring and chiral quality control for tertatolol formulations by HPLC.     

Enantioseparation of benzoxazolinone aminoalcohols and their aminoketone precursors,potential adrenergic ligands,by analytical and preparative liquid chromatography on amylose chiral stationary phases and characterization of the enantiomers

To obtain milligram amounts of the enantiomers of benzoxazolinone derivatives to be tested for binding to adrenergic sites, analytical HPLC methods using derivatized amylose chiral stationary phases were developed for the direct enantioseparation of benzoxazolinone aminoalcohols and their aminoketone precursors, derivatives with one or two chirals centers. The separations were made using normal phase methodology with a mobile phase of n‐hexane‐alcohol (ethanol, 1‐propanol, or 2‐propanol) in various proportions, and silica‐based amylose (tris‐3, 5‐dimethylphenylcarbamate) Chiralpak AD and (tris‐(S)‐1‐phenylethylcarbamate) Chiralpak AS columns. The effects of concentration of various aliphatic alcohols in the mobile phase were studied. The best separation was achieved on Chiralpak AS, so preparative HPLC was set up with this chiral stationary phase using a mobile phase consisting of n‐hexane‐alcohol using isocratic conditions and multiple repetitive injections. Physicochemicals properties of enantiomers were reported The effect of structural features of the solutes on discrimination between the enantiomers was examined. Limit of detection (LD) and limit of quantification (LQ) were determined using both ultra‐violet (UV) and evaporative light‐scattering detection (ELSD). Chirality, 2009. © 2008 Wiley‐Liss, Inc.     

Two‐dimensional chromatography method applied to the enantiomeric determination of lansoprazole in human plasma by direct sample injection

A two‐dimensional HPLC method based on the direct injection of biological samples has been developed and validated for the determination of lansoprazole enantiomers in human plasma. The lansoprazole enantiomers were extracted from the biological matrix using an octyl restricted access media bovine serum albumin column (C₈ RAM BSA) and the enantioseparation was performed on an amylose tris(3,5‐dimethoxyphenylcarbamate) chiral column using acetonitrile:water (35:65 v/v) and UV detection at 285 nm. Analysis time was 25 min with no time spent on sample preparation. The method was applied to the analysis of the plasma samples obtained from nine Brazilian volunteers who received a 30 mg oral dose of racemic lansoprazole and was able to quantify the enantiomers of lansoprazole in the clinical samples analyzed. Chirality 2010. © 2009 Wiley‐Liss, Inc.     

Enantiomeric separation of norgestrel by reversed phase high-performance liquid chromatography using eluents containing hydroxypropyl-beta-cyclodextrin in stereoselective skin permeation study

The chiral separation of norgestrel enantiomers using reversed-phase high-performance liquid chromatography (RP-HPLC) was studied with hydroxypropyl-beta-cyclodextrin (HP-beta-CD) as chiral mobile phase additive. The effect of mobile phase composition, concentration of HP-beta-CD and column temperature on enantioselective separation were investigated. The quantification properties of the developed RP-HPLC method were examined. A baseline separation of norgestrel enantiomers was achieved on a Agilent ZORBAX Eclipse XDB-C8 column (150 mm x 4.6 mm i.d., 5 microm). The mobile phase was a mixture of acetonitrile and phosphate buffer (pH 5.0, 20 mM) containing 25 mM HP-beta-CD (30:70, v/v) with a flow rate of 1.0 ml/min. The UV detector was set at 240 nm. Calibration curves were linear (n=8) in the range of 0.2-25 microg/ml, the limit of detection and quantitation were 0.10 and 0.20 microg/ml, respectively, for racemic norgestrel. The values of RSD of repeatability and intermediate precision for spiked sample were less than 4.8%. The method was successfully applied to the enantioselective determination of this drug in stereoselective skin permeation study.     

Synthesis,HPLC Enantioresolution,and X‐ray Analysis of a New Series of C5‐methyl Pyridazines as N‐Formyl Peptide Receptor (FPR) Agonists

The synthesis of three racemates and the corresponding non‐chiral analogues of a C5‐methyl pyridazine series is described here, as well as the isolation of pure enantiomers and their absolute configuration assignment. In order to obtain optically active compounds, direct chromatographic methods of separation by HPLC‐UV were investigated using four chiral stationary phases (CSPs: Lux Amylose‐2, Lux Cellulose‐1, Lux Cellulose‐2 and Lux Cellulose‐3). The best resolution was achieved using amylose tris(5‐chloro‐2‐methylphenylcarbamate) (Lux Amylose‐2), and single enantiomers were isolated on a semipreparative scale with high enantiomeric excess, suitable for biological assays. The absolute configuration of optically active compounds was unequivocally established by X‐ray crystallographic analysis and comparative chiral HPLC‐UV profile. All compounds of the series were tested for formyl peptide receptor (FPR) agonist activity, and four were found to be active, with EC₅₀ values in the micromolar range. Chirality 25:400–408, 2013. © 2013 Wiley Periodicals, Inc.     

Estimation of Enantiomeric Impurity in Piperidin‐3‐Amine by Chiral HPLC With Precolumn Derivatization

A simple, precise, accurate, robust chiral high‐performance liquid chromatographic (chiral HPLC) method was developed for estimation of (S)‐piperidin‐3‐amine (S‐isomer) in (R)‐piperidin‐3‐amine dihydrochloride (R‐AMP). As AMP is a high‐melting solid and nonchromophoric compound, development of a suitable chiral method is a challenging task. The proposed chiral HPLC‐UV method involves a precolumn derivatization technique with para toluene sulphonyl chloride (PTSC) in the presence of a base to introduce chromophore into analytes. It utilizes chiralpak AD‐H column with a simple mobile phase of 0.1% diethyl amine in ethanol with a 0.5 mL/min flow rate. Analytes were monitored by using a UV detector at 228 nm. The resolution between the two enantiomers was more than 4.0. The developed method was validated as per current International Conference on Harmonization (ICH) guidelines. Chirality 26:775–779, 2014. © 2014 Wiley Periodicals, Inc.     

Enantiomeric separation of malathion and malaoxon and the chiral residue analysis in food and environmental matrix

Malathion is a widely used chiral phosphorus insecticide, which has a more toxic chiral metabolite malaoxon. In this work, the enantiomers of malathion and malaoxon were separated by high-performance liquid chromatography-mass/mass (HPLC-MS/MS) with chiral columns using acetonitrile/water or methanol/water as mobile phase, and the chromatographic conditions were optimized. Based on the chiral separation, the chiral residue analysis methods for the enantiomers in soil, fruit, and vegetables were set up. Two pairs of the enantiomers were better separated on CHIRALPAK IC chiral column, and baseline simultaneous separations of malathion and malaoxon enantiomers were achieved with acetonitrile/water (40/60, v/v) as mobile phase at a flow rate of 0.5 mL/min. The elution orders were −/+ for both malathion and malaoxon measured by an optical rotation detector. The chiral residue analysis in soil, fruit, and vegetables was validated by linearity, recovery, precision, limit of detection (LOD), and limit of quantification (LOQ). The LODs and LOQs for the enantiomers of malathion were 1 μg/kg and 3–5 μg/kg and 0.08 μg/kg and 0.20–0.25 μg/kg for malaoxon enantiomers. Good linear calibration curves for each enantiomer in the matrices were obtained within the concentration range of 0.02–12 mg/L. The mean recoveries of the enantiomers of malathion and malaoxon ranged from 82.26% to 109.04%, with RSDs of 0.71–8.63%.The results confirmed that this method was capable of simultaneously determining the residue of malathion and malaoxon in food and environmental matrix on an enantiomeric level.     

Optimization of the separation and detection of the enantiomers of isoproterenol in microdialysis samples by cyclodextrin-modified capillary electrophoresis using electrochemical detection

Isoproterenol is a chiral catecholamine with a half-life of elimination of less than 10 min. In order to study the pharmacokinetics of this compound using microdialysis sampling, an analytical method was needed which could resolve the individual enantiomers of isoproterenol and required less than 1 μl of sample. A capillary electrophoretic method using a run buffer containing methyl-O-β-cyclodextrin as a chiral recognition agent was developed which could resolve the enantiomers of isoproterenol. The detection limits using UV absorbance detection were found to be too high to determine the concentration of isoproterenol in plasma for a sufficient time following administration to establish the pharmacokinetics. The detection limits were decreased three orders of magnitude to 3 ng/ml by using an amperometric detector. The detection limits were decreased to 0.6 ng/ml using an on-column concentration technique in which peak stacking was accomplished by following the sample injection with a plug of acid.     

Quantitation of trimipramine enantiomers in human serum by enantioselective high-performance liquid chromatography and mixed-mode disc solid-phase extraction

A sensitive and stereospecific method for the quantitation of trimipramine enantiomers in human serum was developed. The assay involves the use of a novel mixed-mode disc solid-phase extraction for serum sample clean-up prior to HPLC analysis and is also free of interference from the enantiomers of desmethyltrimipramine, 2-hydroxytrimipramine, and 2-hydroxydesmethyltrimipramine, the three major metabolites of trimipramine. Chromatographic resolution of trimipramine enantiomers was performed on a reversed-phase cellulose-based chiral column (Chiralcel OD-R) under isocratic conditions using a mobile phase consisting of 0.3 M aqueous sodium perchlorate-acetonitrile (58:42, v/v) at a flow-rate of 0.5 ml/min. Recoveries for R- and S-trimipramine enantiomers were in the range of 93–96% at 25–185 ng/ml levels. Intra-day and inter-day precisions calculated as R.S.D. were in the ranges of 0.30-8.00% and 1.60-10.20% for both enantiomers, respectively. Intra-day and inter-day accuracies calculated as percent error were in the 0.01–2.10% and 1.00–3.00% ranges for both enantiomers, respectively. Linear calibration curves were in the concentration range 15–250 ng/ml for each enantiomer in serum. The limit of quantification of each enantiomer was 15 ng/ml. The detection limit for each enantiomer in serum using a UV detector set at 210 nm was 10 ng/ml (S/N =2). In addition, separation of the enantiomers of desmethyltrimipramine, 2-hydroxytrimipramine, and 2-hydroxydesmethyltrimipramine were investigated. The desmethyltrimipramine enantiomers could be resolved on the Chiralcel OD-R column under the same chromatographic conditions as the trimipramine enantiomers, but the other two metabolite enantiomers required different mobile phases on the Chiralcel OD-R column to achieve satisfactory resolution with R_s values of 1.00.     

Simultaneous determination of the enantiomers of esmolol and its acid metabolite in human plasma by reversed phase liquid chromatography with solid-phase extraction

A stereoselective RP-high performance liquid chromatography (HPLC) assay to determine simultaneously the enantiomers of esmolol and its acid metabolite in human plasma was developed. The method involved a solid-phase extraction and a reversed-phase chromatographic separation with UV detection (lambda = 224 nm) after chiral derivatization. 2,3,4,6-tetra-O-acetyl-beta-d-glucopyranosyl isothiocyanate (GITC) was employed as a pre-column chiral derivatization reagent. The assay was linear from 0.09 to 8.0 microg/ml for each enantiomer of esmolol and 0.07-8.0 microg/ml for each enantiomer of the acid metabolite. The absolute recoveries for all enantiomers were >73%. The intra- and inter-day variations were <15%. The validated method was applied to quantify the enantiomers of esmolol and its metabolite in human plasma for hydrolysis studies.     

Sensitivity improvement of circular dichroism detection in HPLC by using a low-pass electronic noise filter: Application to the enantiomeric determination purity of a basic drug

The quality control of chiral drugs requires the determination of their enantiomeric purity. Nowadays, circular dichroism (CD) spectroscopy is gaining increasing importance in pharmaceutical analysis because of the commercially available CD detector in liquid chromatography. The separation of the two enantiomers of a basic drug (efaroxan) was achieved by high performance liquid chromatography using an amylose-derivated column with both UV and CD detections. A baseline-resolved separation (resolution: 5) was obtained after optimization of the mobile phase composition with hexane-ethanol-diethylamine (90:10:0.05; v/v/v). The use of a commercial low-pass electronic noise filter of the CD signal has improved the signal-to-noise ratio by a factor twelve and allowed the quantitation of each enantiomer in the 1.25-300 microg ml(-1) concentration range. The CD linear calibration curve, expressed in terms of stereoisomer height ratio versus concentration ratio, was plotted over the 0.4-6% range. A correlation coefficient greater than 0.999 was obtained by least-squares regression and the limit of detection for the distomer/eutomer ratio was estimated at 0.14%. Although the method validation showed good repeatability on the retention times (RSD < 0.9%), on the peak height ratios (RSD < 8.7%) of each enantiomer only up to 99.2% enantiomeric purity was achieved.