Determination of isonicotinic acid in the presence of isoniazid and acetylisoniazid Studies on isonicotinic acid formation from isoniazid in isolated rat hepatocytes

In comparison with the hepatocytes obtained from intact rats and rats pretreated with phenobarbital or 3-methylchoranthrene, the amount of isonicotinic acid (INA) formed from isoniazid (INH) increased substantially after incubation at 37°C using the pretreated hepatocytes. This suggests an oxidative pathway for INA formation from INH, apart from hydrolysis. In order to explore the exact mechanism of INA formation in the hepatocytes, an HPLC assay for INA in the presence of INH and acetylisoniazid was developed. In this assay, INA was extracted after the preparation of an ion pair with tetra-n-butylammonium hydroxide, and analysed using an ODS column and a mobile phase consisting of 0.067 M potassium dihydrogenphosphate solution-methanol (96:4 v/v). The method is simple, accurate and especially suitable for INA determination after incubation of INH in isolated rat hepatocytes.     

High-performance liquid chromatographic determination of sotalol in biological fluids

A sensitive, selective and reproducible reversed-phase high-performance liquid chromatographic method is described for the quantification of sotalol in human serum and urine. Sotalol and the internal standard, atenolol, were extracted from alkalinized serum and urine (pH 9.0) into 1-butanol—chloroform (20:60, v/v). The organic phase was evaporated, and to the residue was added 0.1 M sulphuric acid (serum analysis) or mobile phase (urie analysis). The mobile phase consisted of 0.01 M phosphate buffer (pH 3.2) and acetonitrile (20:80, v/v) containing 3 mM n-octylsodium sulphate. The flow-rate was 1.5 ml/min. The retention times of atenolol and sotalol were 7 and 10 min, respectively. Ultraviolet detection at 226 nm made it possible to achieve a detection limit of 0.03 μmol/l.     

High-performance liquid chromatographic determination of quinine in rat biological fluids

A high-performance liquid chromatographic (HPLC) method with ultraviolet detection for the determination of quinine in rat biological fluids is described. Due to its selectivity and sensitivity, the proposed method can be used in the case of such rat biological fluids as cerebrospinal fluid (CSF) and perilymph for which the accessible volumes are limited to 100 μl and 10 μl, respectively. Consequently, the assay method has been applied to the measurements of quinine concentration in rat plasma, CSF and perilymph samples.     

High-performance liquid chromatographic determination of hypoxanthine and xanthine in biological fluids

A rapid and selective reversed-phase high-performance liquid chromatographic method for the simultaneous determination of hypoxanthine and xanthine in biological fluids was developed. The identification of hypoxanthine and xanthine was confirmed by xanthine oxidase reaction. This method was applied to the investigation of purine metabolism in subjects with xanthine oxidase deficiency or gout. Hypoxanthine concentrations three to ten times higher than those determined in plasma were found in erythrocyte samples from normal subjects and from patients with xanthine oxidase deficiency or hyperuricemia under allopurinol therapy.     

High-performance liquid chromatographic method for determination of gentamicin in biological fluids

A selective and sensitive method for the determination of gentamicin in plasma and urine by high-performance liquid chromatography has been developed. Following deproteinization, the gentamicin is reacted with fluorescamine to produce a fluorescent derivative. This reaction mixture is directly chromatographed on a cation-exchange column using as mobile phase acetonitrile—phosphoric acid (7:3). The gentamicin components elute as a single peak. Using 0.1 ml of plasma, quantitation of gentamicin concentrations as low as 1 mg/l are possible. Possible interference from other aminoglycosides and antibiotics is discussed.     

High-performance liquid chromatographic determination of thiopurine metabolites of azathioprine in biological fluids

A selective and sensitive reversed-phase liquid chromatographic method for the analysis of thiopurine bases, nucleosides and nucleotides in biological samples was developed. A simple and rapid sample treatment procedure using perchloric acid deproteinization with dithiothreitol for the analysis of thiopurine bases and nucleosides is presented. The addition of dithiothreitol during sample collection and treatment improves recoveries. This procedure also allows the determination of thiopurine nucleotides by hydrolysis to their free bases after heating of the perchloric acid extract. The method was applied to the analysis of thiopurine metabolites in plasma and erythrocytes from lung-transplant patients under azathioprine therapy.     

High-performance liquid chromatographic determination of licochalcone A and its metabolites in biological fluids

A high-performance liquid chromatographic method has been developed for the analysis of the novel antiparasitic agent, licochalcone A (Lica), and three of its glucuronic acid conjugates in plasma and urine. The high-performance liquid chromatography assay was performed using gradient elution and UV detection at 360 nm. The proposed technique is selective, reliable and sensitive. The limits of quantification for Lica are 0.2 μg/ml in plasma and 0.14 μg/ml in urine, 1.2 μg/ml for the 4′-glucuronide in plasma and 1.4 μg/ml in urine, and 2.0 μg/ml for the 4-glucuronide in plasma and 3.2 μg/ml in urine. The reproducibility of the analytical method according to the statistical coefficients is 7% or below. The accuracy of the method is good, that is, the relative error is below 10%. The stability of Lica and its glucuronides in urine and plasma samples has been assessed during storage in the autosampler and freezer. The applicability of the assay for determining Lica and its intact glucuronide conjugates in biological fluids was shown using a single dose study in rat.     

High-performance liquid chromatographic determination of ibuprofen and its major metabolites in biological fluids

A sensitive and selective high-performance liquid-chromatographic assay for ibuprofen and its major metabolites in biological fluids is described. To ensure good chromatographic separation the drug and metabolites were run on a gradient elution system and detected with a variable wavelength detector set at 220 nm. A second, more rapid, isocratic system is also described for the detection of only ibuprofen.     

High-performance liquid chromatographic analysis of methocarbamol enantiomers in biological fluids

Methocarbamol enantiomers in rat and human plasma were quantified using a stereospecific high-performance liquid chromatographic method. Racemic methocarbamol and internal standard, (R)-(−)-flecainide, were isolated from plasma by a single-step extraction with ethyl acetate. After derivatization with the enantiomerically pure reagent (S)-(+)-1-(1-naphthyl)ethyl isocyanate, methocarbamol diastereomers and the (R)-flecainide derivative were separated on a normal-phase silica column with a mobile phase consisting of hexane—isopropanol (95:5, v/v) at a flow-rate of 1.6 ml/min. Ultraviolet detection was carried out at a wavelength of 280 nm. The resolution factor between the diastereomers was 2.1 (α = 1.24). An excellent linearity was observed between the methocarbamol diastereomers/internal standard derivative peak-area ratios and plasma concentrations, and the intra- and inter-day coefficients of variation were always <9.8%. The lowest quantifiable concentration was 0.5 μg/ml for each enantiomer (coefficients of variation of 9.8 and 8.8% for (S)- and (R)-methocarbamol, respectively), while the limit of detection (signal-to-noise ratio 3:1) was approximately 10 ng/ml. The assay was used to study the pharmacokinetics of methocarbamol enantiomers in a rat following intravenous administration of a 120 mg/kg dose of racemic methocarbamol and to evaluate plasma and urine concentrations in a human volunteer after oral administration of a 1000-mg dose of the racemate. The method is suitable for stereoselective pharmacokinetic studies in humans as well as in animal models.     

Sensitive liquid chromatographic technique to measure isoniazid in alveolar cells, bronchoalveolar lavage and plasma in HIV-infected patients

The need to monitor the effectiveness of antimicrobial drugs in treating opportunistic infections such as tuberculosis in HIV-infected patients requires the development of sensitive assays. A suitable HPLC method was developed to measure the concentration of isoniazid (INH) in plasma 1 h after a standard 300 mg dose and to detect the low levels typically found in alveolar cells obtained by bronchoalveolar lavage of subjects maintained on a standard regimen of the drug. Following extraction with a chloroform–butanol mixture, the INH was back-extracted into dilute acid which was subsequently analyzed by HPLC using a CN reversed-phase column and an acetonitrile–isopropanol based mobile phase. Another HPLC method was developed using direct injection and a polymer based column to measure minute concentrations of INH in the cell-free lavage. In both systems, detection of the drug was accomplished with a sealed coulometric detector (+0.6 V) capable of giving a consistent daily response without adjustment. When saline, cellular extracts and plasma from untreated subjects were spiked with various amounts of INH and analyzed, the lowest level of quantitation was 10, 25 and 100 ng/ml, respectively. Calibration curves showed good linearity when spiked concentrations were compared to peak areas (r=0.991, 0.993 and 0.998, respectively). Alveolar cell extracts and cell-free bronchoalveolar fluid from HIV-positive patients maintained on a standard INH regimen had detectable levels of INH 4 h after a 300 mg oral dose. The plasma INH at 1 h had a range of 0.3–7.1 μg/ml (n=50). Precision studies with plasma spiked at 0.1, 0.5, 1.0 and 5.0 μg/ml revealed within-run coefficients of variation (C.V.s) of 8.9, 7.2, 4.2 and 4.9%, respectively and analytical recoveries of 97, 108, 108 and 98%, respectively. The day-to-day C.V.s for the plasma method were 7.6, 4.9 and 3.8% at concentrations of 0.5, 1.0 and 3.0 μg/ml, respectively. The results suggest that this rugged HPLC technique can quantitate INH in 1 h plasma with good precision and can be used to estimate the very low INH concentrations found in alveolar cells and cell-free lavage recovered from patients undergoing anti-tuberculosis therapy.     

High-performance liquid chromatographic analysis of sulfinpyrazone and its metabolites in biological fluids

A rapid, sensitive, and specific high-performance liquid chromatographic method is described for the quantitative analysis of sulfinpyrazone and its sulfone and p-hydroxy metabolites in plasma and urine. The method uses two different procedures for sample preparation: (1) a rapid and convenient procedure using a single extraction with 1-chlorobutane and subsequent back-extraction into sodium hydroxide solution for the analysis of sulfinpyrazone and its sulfone metabolite, and (2) a more time consuming procedure using triple extraction with ethylene dichloride, a buffer wash, and back extraction into the base for the additional analysis of the p-hydroxy metabolite. The lower limit of sensitivity for sulfinpyrazone is 50 ng/ml. Concentrations of sulfinpyrazone between 0.05 to 0.1 and 50 μg/ml were measured with an average coefficient of variation of 3.9%, ranging from 1.5 to 6.1%.     

High-performance liquid chromatographic determination of 2-hydroxypropyl-gamma-cyclodextrin in different biological fluids based on cyclodextrin enhanced fluorescence

A high-performance size exclusion chromatographic method with analyte enhanced fluorescence detection is described for the analysis of 2-hydroxypropyl-gamma-cyclodextrin (HPGCD) in different biological fluids. The principle of detection was the in situ complexation of 8-anilinonaphthalene-1-sulfonic acid (ANS) by HPGCD. When HPGCD eluted from the column the increased fluorescence was measured at excitation and emission wavelengths of 270 and 512 nm, respectively. Solid-phase extraction cleanup and concentration of samples resulted in higher than 78% recovery of HPGCD for each of the studied biological fluids. Some important details of the method development as well as the validation of the method for rabbit plasma, rabbit aqueous humour, monkey plasma and monkey urine are given. The limits of quantification varied between 1 and 10 nmol/ml (correspond to 1.5-15 microg/ml) depending on the biological matrix used. The method was successfully adapted in another laboratory proving that HPGCD had not absorbed into aqueous humour and plasma after topical application of HPGCD containing eye drop in rabbits.     

High-performance liquid chromatographic determination of navelbine in MO4 mouse fibrosarcoma cells and biological fluids

A high-performance liquid chromatographic method is described for separating and determining navelbine and possible metabolites in plasma, cell culture medium and MO₄ cells. Navelbine is extracted from these fluids by ion-pair extraction with sodium octylsulphate as the counter-ion at pH 3. The system uses a cyano column as the stationary phase and a mobile phase of acetonitrile-0.12 M phosphate buffer (pH 3) (60:40, v/v). Application of the method to a study of the pharmacokinetic behaviour of navelbine in MO₄ mouse fibrosarcoma cells is reported.