UPLC-PDA Analysis for Simultaneous Quantification of Four Active Compounds in Crude and Processed Rhizome of Polygonum multiflorum Thunb

A novel, rapid and specific ultra performance liquid chromatography-photo diode array detection method was developed for the simultaneous determination of 2,3,5,4′-tetrahydroxystilbene-2-O-β-d-glucoside (TSG), emodin-8-O-β-d-glucoside (EMG), emodin (EM) and physcion (PS). The chromatographic separation was performed on an Acquity BEH C₁₈ column (100 × 2.1 mm i.d., 1.7 μm). The mobile phase was a mixture of 0.3% acetic acid–water and 0.3% acetic acid–acetonitrile employing gradient elution at the flow rate of 0.4 mL min^?1. The four compounds behaved linearly in the concentration range between 60.80–3040.00 μg mL^?1 (TSG), 0.50–25.00 μg mL^?1 (EMG), 2.16–108.00 μg mL^?1 (EM) and 1.56–78.00 μg mL^?1 (PS), respectively with correlation coefficients >0.999. The precision of the method were below 5% RSD. Recoveries of the four compounds ranged from 95.71 to 102.97%, with RSD values less than 2%.     

LC Determination of Lidocaine and Prilocaine Containing Potential Risky Impurities and Application to Pharmaceuticals

A liquid chromatographic method for the determination of lidocaine (LID), prilocaine (PRL) and their impurities 2,6-dimethylaniline (DMA) and o-toluidine (TOL) has been developed. The analysis was performed on a reversed phase C18 Hypersil BDS column at ambient temperature. A mobile phase consisting of Briton-Robinson buffer, pH 7—methanol—acetonitrile (40: 45: 15 v/v/v) was used at a flow rate of 1.2 mL min^?1. Detection was achieved at 225 nm using benzophenone as internal standard over the concentration range 1.25–80 μg mL^?1 for all analytes. The relative standard deviations RSD (n = 7) for the assay were less than 0.95%. Limit of detection values were found to be 0.346, 0.423, 0.112 and 0.241 μg mL^?1 for LID, PRL, DMA and TOL, respectively. The intraday and the inter-days RSD % indicated the precision of the procedure. The method proved to be suitable for the quality control of LID and PRL in pharmaceuticals.     

Development and Validation of a Stability-Indicating LC Method for Curcumin

A simple, isocratic, stability-indicating liquid chromatographic method for quantitative determination of curcumin was successfully developed. The chromatographic separations were achieved using a Hi-Q-Sil C18; 4.6 mm × 250 mm and 10 μm particle size column employing acetonitrile and acetate buffer (pH 3.0; 60: 40, v/v) as the mobile phase. The analyte was subjected to acidic, basic, oxidative, thermal and photo degradation. The method was validated with respect to linearity, precision, accuracy, limit of detection and limit of quantification. Curcumin was detected by UV-Vis detector at 425 nm whereas the degradation products were detected at 280 nm. The method was linear over the concentration range of 1–10 μg mL^?1. The limit of detection was found to be 0.06 μg mL^?1 and the quantification limit was 0.21 μg mL^?1. Considerable degradation of the analyte was observed when it was subjected to alkaline conditions. Accuracy, evaluated as recovery, was in the range of 97–103%. Intra-day precision and intermediate precision showed relative standard deviations <1% and <2% respectively.     

A Stability-Indicating Assay of Brimonidine Tartrate Ophthalmic Solution and Stress Testing Using HILIC

A stability-indicating hydrophilic interaction liquid chromatography (HILIC) method has been developed and validated for the quantitative determination of Brimonidine tartrate (BT) formulated as an ophthalmic solution. Isocratic separation was achieved using an acetonitrile-buffer mixture (92:8, v/v) at pH 7.1 on an unmodified silica column (250 × 4.6 mm, 5 μm). The drug was subjected to oxidative, hydrolytic, photolytic and thermal stress conditions and complete separation was achieved for the parent compound and degradation products. The influence of acetonitrile, pH and ionic strength of the buffer was studied. Linearity range and recoveries for BT were 100–400 μg mL^?1 and 100.12%, respectively. The method was validated for BT and indicated that the method was sufficiently sensitive with a limit of detection at 0.005 μg mL^?1 and a limit of quantitation at 0.02 μg mL^?1, respectively.     

Development and Validation of an HPLC–UV Method for the Determination of Insulin in Rat Plasma: Application to Pharmacokinetic Study

A simple, sensitive high performance liquid chromatographic method with UV detection was developed and validated for determination of insulin in rat plasma, using methyl paraben as an internal standard. Insulin was extracted from plasma by a liquid–liquid extraction with a mixture of dichloromethane and n-hexane (1:1, v/v) followed by an acidic back extraction. Chromatographic separation was achieved isocratically with a Phenomenex® C₁₈ analytical column (150 × 4.6 mm ID, 5 μm) at ambient room temperature. The calibration curves were linear within a concentration range of 0.7–8.4 μg mL^?1 (r ² = 0.9994). The inter-day and intra-day accuracy and precision were ≤3.33 and ≤5.55%. The limit of detection (LOD) and limit of quantification (LOQ) were 0.35 and 0.7 μg mL^?1. The average recovery was 87.86% for insulin and 83.52% for methyl paraben. Insulin containing plasma samples were stable at ?20 °C for 7 days. Validated HPLC method was successfully applied to a pharmacokinetic study of insulin in streptozotocin induced diabetic rats.     

Ion-Pair LC Method for Simultaneous Determination of Aliskiren Hemifumarate,Amlodipine Besylate and Hydrochlorothiazide in Pharmaceuticals

A rapid and precise LC method was developed for the simultaneous determination of aliskiren hemifumarate (ALS), amlodipine besylate (AML) and hydrochlorothiazide (HCZ) using acetonitrile:25 mM octane sulfonic acid sodium salt monohydrate in water (60:40 v/v) as the mobile phase. The flow rate was maintained at 1.2 mL min^?1 on a stationary phase composed of Supelco, Discovery^® HS (C18) column (25 cm × 4.6 mm, 5 μm). Isocratic elution was applied throughout the analysis. Detection was carried out at λ _max (232 nm) at ambient temperature. The method was validated according to ICH guidelines. Linearity, accuracy and precision were satisfactory over the concentration ranges of 32–320, 2–44 and 4–64 μg mL^?1 for ALS, AML and HCZ, respectively. LOD and LOQ were estimated and found to be 0.855 and 2.951 μg mL^?1, respectively, for ALS, 0.061 and 0.202 μg mL^?1, respectively, for AML as well as 0.052 and 0.174 μg mL^?1, respectively, for HCZ. The method was successfully applied for the determination of the three drugs in their co-formulated tablets. The results were compared statistically with reference methods and no significant difference was found. The developed method is specific and accurate for the quality control and routine analysis of the cited drugs in pharmaceutical preparations.     

LC Method for Quantification of ent-11α-Hydroxy-15-oxo-kaur-16-en-19-oic Acid in Rabbit Plasma: Validation and Application to a Pharmacokinetic Study

ent-11α-Hydroxy-15-oxo-kaur-16-en-19-oic acid (5F), a diterpenoid isolated from the Chinese herb Pteris semipinnata L, has been suggested to show antitumor properties. A simple and sensitive LC method was developed for the determination of 5F in rabbit plasma. The method involved liquid–liquid extraction using ethyl acetate under acidic conditions using naproxen as an internal standard. Separations were performed on a reversed-phase column with a mixture of 1% (v/v) glacial acetic acid and methanol (45:55, v/v) as mobile phase and UV detection was utilized at 242 nm. The calibration plot was linear in the range 0.20–10.0 μg mL^?1 (correlation coefficients r ²  > 0.998). The detection limit was 0.20 μg mL^?1, mean extraction recovery was above 82%, intra-day precision of the method was less than 6.4%, and inter-day precision was better than 8.7%, respectively. The validated assay was found to be suitable for the pharmacokinetic study of 5F in rabbits.     

Analysis of Pazufloxacin Mesilate in Human Plasma and Urine by LC with Fluorescence and UV Detection,and Its Application to Pharmacokinetic Study

A liquid chromatographic method for analysis of pazufloxacin mesilate in human plasma and urine has been developed and validated for selectivity, sensitivity, accuracy, precision, and stability in pharmacokinetic analysis. The sensitivity of the method was 0.02 μg mL^?1 in plasma and 0.5 μg mL^?1 in urine, with overall intra-day and inter-day precision (RSD < 10%) and accuracy (90–120%) acceptable for clinical pharmacokinetic analysis. Recovery from plasma and urine was 80–110% for both pazufloxacin mesilate and enoxacin, the internal standard. Pazufloxacin was stable in both plasma and urine, with no significant degradation under four different conditions. The method was successfully used in a preliminary study of the bioavailability of pazufloxacin mesilate in healthy human volunteers after intravenous administration of 300 and 500 mg.     

Reversed-Phase Liquid Chromatographic Method for Determination of Daclatasvir Dihydrochloride and Study of Its Degradation Behavior

A simple and selective reversed-phase stability-indicating liquid chromatographic method has been developed and validated for the determination of daclatasvir in drug substance and drug product. Daclatasvir was subjected to acidic, alkaline, oxidative, thermal and photo-degradation study. The LC method was based on isocratic elution of daclatasvir and its degradation products on a reversed-phase C₁₈ Hypersil column using a mobile phase consisting of phosphate buffer (10 mM, 1 mL triethylamine L^?1): acetonitrile (60:40 v/v) at a flow rate of 2 mL min^?1. Quantitation was achieved with UV detection at 312 nm. Linearity, accuracy, and precision were found to be acceptable over the concentration range of 0.75–120 μg mL^?1, with regression coefficient value of 0.9999, and with limit of detection and quantitation of 0.148 and 0.447 μg mL^?1, respectively. Peak purity was checked for principle drug and its alkali induced degradation product, and the pathway of alkaline hydrolysis of daclatasvir was suggested by LC/MS.     

LC Determination of Ketorolac in Human Plasma and Urine for Application to Pharmacokinetic Studies

A simple, specific and sensitive liquid chromatographic method has been developed for the assay of ketorolac in human plasma and urine. The clean-up of plasma and urine samples were carried out by protein precipitation procedure and liquid–liquid extraction, respectively. Separation was performed by a Waters sunfire C₁₈ reversed-phase column maintained at 35 °C. The mobile phase was a mixture of 0.02 M phosphate buffer (pH adjusted to 4.5 for plasma samples and to 3.5 for urine samples) and acetonitrile (70:30, v/v) at a flow rate of 1.0 mL min^?1. The UV detector was set at 315 nm. Nevirapine was used as an internal standard in the assay of urine sample. The method was validated over the concentration range of 0.05–8 and 0.1–10 μg mL^?1 for ketorolac in human plasma and urine, respectively. The limits of detection were 0.02 and 0.04 μg mL^?1 for plasma and urine estimation at a signal-to-noise ratio of 3. The limits of quantification were 0.05 and 0.1 μg mL^?1 for plasma and urine, respectively. The extraction recoveries were found to be 99.3 ± 4.2 and 80.3 ± 3.7% for plasma and urine, respectively. The intra-day and inter-day standard deviations were less than 0.5. The method indicated good performance in terms of specificity, linearity, detection and quantification limits, precision and accuracy. This assay demonstrated to be applicable for clinical pharmacokinetic studies.     

Simultaneous Determination of Clobetasol Propionate and Calcipotriol in a Novel Fixed Dose Emulgel Formulation by LC-UV

A new, rapid, selective, cheap and simple RP-LC method has been developed and validated for the simultaneous determination of clobetasol propionate and calcipotriol mixtures in bulk drugs (raw materials) and in a novel-fixed dose emulgel formulation. Separation was carried out using a NovaPak C18 column with methanol:water (74:26 v/v) as mobile phase for isocratic elution at a flow rate of 1.0 mL min^?1. The column temperature was set at 25 °C. Calibration curves were established ranging between 0.5 and 20 μg mL^?1 and 0.5 and 10 μg mL^?1 for clobetasol propionate and calcipotriol, respectively. Limit of detection and limit of quantification values of the method was found as 0.16 and 0.48 μg mL^?1 for clobetasol propionate and 0.10 and 0.30 μg mL^?1 for calcipotriol, respectively. The method was validated in accordance with ICH guidelines and obtained results proved that the proposed method was precise, accurate, selective and sensitive for the simultaneous analysis of clobetasol propionate and calcipotriol. The proposed method can be easily applied for the simultaneous determination of clobetasol propionate and calcipotriol in prepared emulgel formulations. The obtained validation results showed that the RP-LC method is suitable for routine quantification of clobetasol propionate and calcipotriol in emulgel formulations with high precision and accuracy.     

Development and Validation of a Novel Gradient LC Method for Simultaneous Determination of Isoniazid and Acetylisoniazid in Human Plasma

The goal of this study was to develop and validate a new gradient high-performance liquid chromatography method for the simultaneous determination of isoniazid (INH) and acetylisoniazid (Ac-INH) in human plasma samples. A C18 reversed-phase column was employed for separation followed by UV detection at 266 nm. The calibration involved the use of five concentration levels ranging from 1 to 20 μg mL^?1 for both analytes. The developed method was validated using ICH guidelines. The calibration curve was found to be linear with correlation coefficient values (r ²) above 0.9991 and the highest RSD% values for intra-day assays were found to be 6.34 and 2.57% for INH and Ac-INH, respectively. The highest RSD% values for inter-day assays were 9.31 and 10.17% for INH and Ac-INH, respectively. LOD was calculated to be 0.1 and 0.15 μg mL^?1 for INH and Ac-INH, respectively. LOQ was calculated to be 0.33 and 0.5 μg mL^?1 for INH and Ac-INH, respectively.     

Development and Validation of an Accurate LC Method for the Quantitative Determination of Voriconazole in a New Emulsion Formulation

A simple, sensitive and accurate liquid chromatographic method with UV detection was developed and validated to determine voriconazole in a new emulsion formulation. Chromatographic separation was achieved on a Diamonsil C₁₈ column (250 × 4.6 mm I.D., 5 μm) using a mobile phase consisting of acetonitrile-water-acetic acid (40:60:0.25, v/v/v) at a flow rate of 1.0 mL min^?1. The UV detection wavelength was set at 256 nm. The linear calibration curves were obtained in the concentration range of 1.00–100 μg mL^?1 with the limit of quantification of 1.00 μg mL^?1. The within- and between-run precisions in terms of percentage relative standard deviation were lower than 7.4 and 7.1%, respectively. The accuracy in terms of percentage relative error ranged from ?1.5 to 1.4%. This validated method was successfully applied to the determination of the content of voriconazole in a new emulsion formulation.     

Simultaneous Determination of Theobromine,Paraxanthine, Theophylline,and Caffeine in Urine by Reversed-Phase High-Performance Liquid Chromatography with Diode Array UV Detection

A reversed-phase high performance liquid chromatographic method was improved for the simultaneous determination of theobromine, paraxanthine, theophylline, and caffeine in urine. The method includes a liquid-liquid extraction at alkaline pH with ethylacetate. The 7-(2,3-dihidroxypropyl) theophylline was used as an internal standard (ISTD). The separation was achieved on a C₁₈ column using 14:86 methanol:buffer (25 mM KH₂PO₄ adjusted to pH 4 with ortho-phosphoric acid) solution as mobile phase under isocratic conditions at a flow rate 1 mL min^?1. An ultraviolet absorption at 274 nm was monitored. In these conditions, the LOD was 0.03 μg mL^?1 for theobromine, 0.02 μg mL^?1 for paraxanthine, 0.04 μg mL^?1 for theophylline, and 0.08 μg mL^?1 for caffeine. The method has been applied to urine samples.     

LC Determination of a Novel Synthetic Thiazolidinedione (BP-1107) in Rat Plasma and Its Application to a Pharmacokinetic Study

A simple, rapid, sensitive and reliable liquid chromatographic method for the quantification of BP-1107 in rat plasma has been established. Plasma samples were prepared by extraction with tert-butyl methyl ether, and troglitazone was used as an internal standard. The analytical separation was performed on a C₁₈ column using acetonitrile–0.3% phosphoric acid in water (pH 4.00 adjusted with triethylamine) (75:25, v/v) as a mobile phase. A detailed validation of the method was performed as per USFDA guidelines. For BP-1107 at the concentrations of 2.42, 16.11 and 32.22 μg mL^?1 in rat plasma, the extraction recoveries were 114.14 ± 9.75, 95.37 ± 12.06 and 90.00 ± 6.46%, respectively. The mean recovery for internal standard was 91.96 ± 2.51%. The lower limit of quantitation of BP-1107 was 16 ng. The linear quantification range of the method was 0.81–53.70 μg mL^?1 in rat plasma with a correlation coefficient greater than 0.999. The intra-day and inter-day accuracy for BP-1107 at 2.42, 16.11 and 32.22 μg mL^?1 levels in rat plasma fell between 97.10–110.02 and 97.52–108.04%. The intra-day and inter-day precision were in the ranges of 1.91–5.63 and 4.43–6.28%, respectively. The method was successfully applied to a pharmacokinetic study of BP-1107 in rats after an intravenous administration.     

Development and Validation of an LC Method for Simultaneous Determination of Ascorbic Acid and Three Phenolic Acids in Sustained Release Tablets at Single Wavelength

A simple, rapid and sensitive column liquid chromatographic method was developed and validated to measure simultaneously the amount of ascorbic acid and phenolic acids at single wavelength (240 nm) in order to assess drug release profiles and drug-excipients compatibility studies for a new sustained release tablet formulation and its subsequent stability studies. A combined isocratic and linear gradient reversed-phase LC method was carried out at 240 nm. Quantification was achieved with reference to the external standards. The linearity for concentrations between 0.042 and 0.150 mg mL^?1 for ascorbic acid, 0.084–0.250 mg mL^?1 for chlorogenic acid, 0.053–0.360 mg mL^?1 for caffeic acid, and 0.016–0.250 mg mL^?1 for ferulic acid (r > 0.99 for all analytes) were established. The recovery of the active ingredients from the samples was at the range of 92.3–102.9%. Intra- and inter-day precisions were less than 2.5%. The limits of detection and quantification were 8 and 24 μg mL^?1 for ascorbic acid, 18 and 54 μg mL^?1 for chlorogenic acid, 37 and 112 μg mL^?1 for caffeic acid, and 11 and 34 μg mL^?1 for ferulic acid. The determination of the four active ingredients was not interfered by the excipients of the products. Samples were stable in the release mediums (37 °C) at least for 12 h.     

HPLC and UPLC Methods for the Simultaneous Determination of Enalapril and Hydrochlorothiazide in Pharmaceutical Dosage Forms

High efficiency and less elution are the basic requirements of high-speed chromatographic separation. In this study, a new gradient reverse phase chromatographic methods were developed using HPLC and UPLC systems for simultaneous determination of enalapril maleate (ENL) and hydrochlorothiazide (HCZ) in pharmaceutical dosage forms. The chromatographic separations of ENL and HCZ were achieved on a Waters μ-Bondapak C 18, (300 × 3.9 mm, 10 μm) and Waters Acquity BEH C18 (100 × 2.1 mm, 1.7 μm) columns for HPLC within 5.30 min and UPLC within a short retention time of 1.95 min, respectively. A linear response was observed over the concentration range 0.270–399 μg mL^?1 of ENL, 0.260–399 μg mL^?1 of HCZ for HPLC system and 0.270–399 μg mL^?1 of ENL and 0.065–249 μg mL^?1 of HCZ for UPLC system. Also, limit of detection for ENL was 1.848 ng mL^?1 and 31.477 ng mL^?1 for HCZ, 2.804 ng mL^?1 for ENL and 2.943 ng mL^?1 for HCZ using HPLC and UPLC, respectively. The proposed methods were validated according to ICH guideline with respect to precision, accuracy, and linearity. Forced degradation studies were also performed for both compounds in bulk drug samples to demonstrate the specificity and stability indicating power of the HPLC method. Comparison of system performance with conventional HPLC was made with respect to analysis time, efficiency, and resolution.     

Identification and Determination of Related Substances in Diosmin Bulk Drug and Pharmaceutical Formulations by HPLC and HPLC–MS

Six related substances were detected in diosmin bulk drug substances and products by a newly developed gradient reverse-phase high performance liquid chromatography (RP-HPLC) with UV detection. The chromatographic system consisted of an Intersil Wondasil TM ODS (C 18) column (250 × 4.6 mm; 5 μm). The mobile phase consisted of water/acetic acid 66:6 v/v (solvent A) and methanol (solvent B) using a gradient program at a flow rate of 0.8 mL min^?1 with 345 nm detection and an injection volume of 20 μL. In addition, the linearity, quantitation limit (QL), accuracy, selectivity, robustness and precision were determined. Good linearity was obtained over the concentration range 0.5–200 μg mL^?1 with the coefficient of determination (r ²) of 0.999. The QL was 0.125 μg mL^?1 (relative standard deviation <2.0 %). The major impurities have been resolved and identified using two analytical systems, HPLC and HPLC/electrospray ionization-mass spectrometry operated in a negative ion mode. One of these impurities marked as 7-hexopyranosidal diosmetin was unknown and has not been reported previously. Based on mass spectrometry data the structure of the new impurity was proposed as 5-hydroxy-2-(3-hydroxy-4-methoxyphenyl)-4-oxo-4H-chromen-7-yl hexopyranoside. The newly developed RP–LC method for quantitative determination of diosmin-related substances was found to be precise, accurate, robust and specific. It has been successfully employed for the quality evaluation of different sources of raw material and generic formulations of diosmin.     

Establishment of an LC-Based Assay to Determine Caffeic Acid Tetramer in Rat Plasma and Its Application to a Pharmacokinetic Study

A facile, sensitive, and accurate liquid chromatographic method with ultraviolet detection was developed for the determination of caffeic acid tetramer in rat plasma. Chromatographic separation was performed on an YMC C18 10 μm column (250 × 4.6 mm) using acetonitrile and phosphate buffer (19:81, v/v) as mobile phase at a flow rate of 1 mL min^?1. The UV detection wavelength was set at 252 nm. The method showed good linearity in the range of 1–150 μg mL^?1 with a satisfactory correlation coefficient (r) of 0.997. The limit of detection was 20 ng mL^?1 while inter- and intra-day precisions were less than 5.39 and 5.48%, respectively. Furthermore, the accuracy ranged from 98.27 to 103.76% with high extraction recoveries of caffeic acid tetramer from plasma greater than 88.0%. This practical methodology opens a facile and effective pathway for a pharmacokinetic study.     

Simultaneous Determination of Benzodiazepines and Ketamine from Alcoholic and Nonalcoholic Beverages by GC-MS in Drug Facilitated Crimes

A GC-MS method with HP-5MS capillary column was developed for the simultaneous determination of underivatized flunitrazepam, clonazepam, alprazolam, diazepam and ketamine from drinks by extraction with chloroform: isopropanol 1:1 (v/v). All linearity ranges were between 50 and 1,000 μg mL^?1 for all compounds both in beer and in peach juice. Limit of detection was between 1.3 and 34.2 μg mL^?1, limit of quantification was between 3.9 and 103.8 μg mL^?1, the range of recoveries was 73.0 and 112.6% for all drugs in both beverages. The reported method was sensitive, rapid, and suitable for the analysis of the spiked drinks as evidence of sexual assault and robbery phenomena.