Validated LC/MS method for simultaneous determination of elbasvir and grazoprevir in human plasma.

A sensitive and accurate LC/MS method for the determination of elbasvir (ELB) and grazoprevir (GZP) in human plasma was established using daclatasvir (DCT) as an internal standard. The analytes were separated on a Waters Spherisorb phenyl column (150mm×4.6mm ID, 5µm particle size) maintained at 40°C±2°C. Gradient elution, at a flow rate of 0.8mLmin-1, was used. The mobile phase consists of 90% of acetonitrile mixed to 10% of a 5mM ammonium formate buffer (+0.1% v/v of trimethylamine, pH was adjusted to 3.2 by formic acid) as phase A and 10% of acetonitrile mixed to 90% of the same buffer as phase B. Liquid-liquid extraction with ethyl acetate solvent was used to recuperate compounds from plasma. The method was validated over a concentration range of 2 and 100ng/mL for GZP and between 1 and 50ng/mL for ELB. The intra- and inter-day precision and accuracy of the quality control samples at low, medium, and high concentration levels exhibited relative standard deviations (RSD)<15%, and the accuracy values ranged from 94.2 to 107.8%. The robustness of the method was established using a two-level full factorial design.

Micellar high performance liquid chromatographic method for separation and validation of two anti-hepatitis C- virus drugs in pure form, human plasma and human urine.

OBJECTIVES: In the present study, an eco- friendly micellar liquid chromatographic technique was validated for separation and quantification of two drugs; namely ribavirin (RIV), and sofosbuvir (SBV) in pure form, pharmaceuticals containing them, human plasma and human urine. These drugs are administered co-administered for treatment of Hepatitis C virus (HCV) that causes hepatitis C in humans. MATERIAL AND METHODS: These drugs were separated using Nucleosil 100-5 phenyl column. Sodium dodecyl sulphate (SDS) solution (0.05M, pH 7.0) containing triethylamine (0.3%) and n-butanol (10%) was used as a mobile phase with 1.2 mLmin-1 flow rate and 215nm detection wavelength. Nine minutes were required for resolving the two drugs from the matrix. RESULTS: The method showed good linearity for RIV and SBV with correlation coefficients (r2) more than 0.9996 within the concentration ranges of (20-400) and (40-400) ngmL-1 in pure form, (30-300) and (50-300) ngmL-1 in human plasma and (20-400) and (40-400) ngmL-1 in human urine, respectively. CONCLUSION: The recommended method was applied for examination of RIV and SBV in pure and pharmaceuticals. The obtained results were statistically matched with reported methods with no significant differences. Also, the recommended method was effectively applied for estimation of both drugs in spiked human urine and plasma without purification or extraction steps and real samples of plasma and urine of humans having therapy of RIV and SBV, as well as, performing tablets dissolution-rate tests with satisfactory results.

Validated RP-HPLC method for quantification of doxazosin in human plasma: Application in a bioequivalence study.

OBJECTIVES: The aim of the present study was to validate a simple, sensitive, HPLC method of analysis of doxazosin in human plasma with fluorescence detection. METHODS: The validated method employed one-step direct protein precipitation with acetonitrile. Chromatographic separation was attained using a reverse-phase 250mm×4.6mm 5µ Hypersil® BDS C 18 column and the mobile phase consisted of 10mm sodium dihydrogen phosphate dihydrate (pH=3.0) and acetonitrile at a ratio of (65:35 v/v). The method was evaluated in terms of linearity, precision, accuracy, selectivity and stability as per standard guidelines. The total run time was about 4.5min which make this method suitable for high throughput analyses. This method was applied to the bioequivalence study of two doxazosin tablets in healthy human volunteers. RESULTS: Good linear response was achieved over the range of 5.0-200ng/mL. The observed within- and between-day assay precision ranged from 0.64% to 14.73%; accuracy varied between 94.11% and 105%. The 90% confidence intervals for the ratio Cmax, and AUC 0-∞ of the test product over those of reference were within the acceptable range (0.8-1.25) for bioequivalence. CONCLUSION: The developed method was simple and could be applied to therapeutic drug monitoring of doxazosin.

Simultaneous HPLC determination of alfuzosin, tamsulosin and vardenafil in human plasma and pharmaceutical formulations using time programmed fluorescence detection.

Alfuzosin and tamsulosin are recently co-administrated with vardenafil to treat symptoms of benign prostatic hyperplasia and erectile dysfunction. A highly sensitive and simple liquid chromatographic method was developed and validated for the simultaneous determination of the three drugs using moxifloxacin as an internal standard. Isocratic separation was achieved within 7.0 min using phenyl-hexyl column (250 × 4.6 mm i.d.) and a mobile phase composed of acetonitrile/0.25% phosphoric acid (30:70, v/v) at pH 3.0. The analysis was performed at a flow rate of 1.2 mL/min with fluorescence detection at 246/450 nm for Alfuzosin and vardenafil, and 226/322nm for tamsulosin using time programming technique. The proposed method was linear over the concentration ranges of 5.0-50.0ng/mL, 10.0-200.0ng/mL and 20.0-400.0ng/mL for alfuzosin, vardenafil and tamsulosin, with limits of detection of 0.56ng/mL, 0.98ng/mL and 2.81 ng/mL in a respective order. The developed method was successfully applied to determine the studied drugs in dosage forms and human plasma samples and the results were satisfactory as revealed by statistical analysis of the data.

UPLC-MS/MS method for determination of sofosbuvir in human plasma.

INTRODUCTION: A sensitive and rapid method for quantitation of Sofosbuvir in human plasma has been established using ultra performance liquid chromatography-electrospray ionization tandem mass spectrometry (UPLC-ESI-MS/MS). MATERIALS AND METHODS: Sofosbuvir d3 was used as an internal standard. Sofosbuvir and internal standard in plasma sample were extracted using ethyl acetate (liquid liquid extraction). A centrifuged upper layer was then evaporated and reconstituted with the mobile phase of 0.5% formic acid: methanol (30:70, v/v). The reconstituted samples were injected into a Gemini C18 (50×4.6mm, 5µm) column. RESULTS: Using MS/MS in the multiple reaction monitoring mode, Sofosbuvir and Sofosbuvir d3 were detected without severe interferences from human plasma matrix. Sofosbuvir produced a protonated precursor ion ([M+H]+) at m/z 428.35 and a corresponding product ion at m/z 279.26. The internal standard produced a protonated precursor ion ([M+H]+) at m/z 431.38 and a corresponding product ion at m/z 282.37. The calibration curves for the analyte was linear (R2≥0.9956, n=4) over the concentration range of 4.063-8000.010ng/mL. Stability studies revealed that Sofosbuvir was stable in plasma during bench top (7h at room temperature), in injector (20h), at the end of five successive freeze and thaw cycles and long term at -70°C±15°C for 15 days. CONCLUSION: The developed method was validated as per the guidelines of USFDA and the obtained results were found to be within the limits and could be successfully employed for the determination of Sofosbuvir in human plasma for regular and pharmacokinetic studies.