High-performance liquid chromatographic analysis of amphotericin B in plasma, blood, urine and tissues for pharmacokinetic and tissue distribution studies.

A sensitive and reproducible high-performance liquid chromatographic method was developed to assay ampherotericin B in plasma, blood, urine and various tissue samples. Amphotericin B was isolated from each sample matrix by solid-phase extraction (Bond-Elut). The eluate from Bond-Elut containing amphotericin B was injected onto a reversed-phase C18 column (Waters, mu Bondpak, 10 microns, 300 mm x 3.9 mm I.D.) with a mobile phase of 45% acetonitrile in 2.5 mM Na2EDTA at 1 ml/min. Detection of amphotericin B was by ultraviolet absorption at 382 nm. Blood and tissues were homogenized and extracted with methanol prior to Bond-Elut extraction. The extraction efficiencies of amphotericin B from plasma, blood and tissues were approximately 90, 70 and 75%, respectively. The sensitivity of the assay was less than or equal to 5 ng/ml for plasma, less than or equal to 25 ng/ml for blood, 2.5 ng/ml for urine and 50 ng/g for tissues. The linearity of the assay method was up to 2.5 micrograms/ml for plasma, 5 micrograms/ml for blood, 500 ng/ml for urine and 500 micrograms/g for tissues. The assay was reproducible with an intra-day coefficient of variation (C.V., n = 3) of less than 5% in general for plasma, blood and tissues. The inter-day C.V. of the assay was less than 5% for plasma (n = 5), less than 10% for blood (n = 4) and less than 5% for tissues (n = 3). The overall variability in the urine assay was generally less than 10%. This method has demonstrated significant improvement in the sensitivity and reproducibility in assaying amphotericin B in plasma and especially in blood, urine and tissues. We have employed this assay to compare the pharmacokinetic and tissue distribution profiles of amphotericin B in rats and dogs following administration of Fungizone and ABCD (amphotericin B-cholesteryl sulfate colloidal dispersion), a lipid-based dosage form. In addition, the assay method for plasma and urine samples can also be applied to pharmacokinetics studies of amphotericin B in man.     

High-performance liquid chromatographic assay for dilevalol in human plasma and urine using a PRP-1 column and fluorimetric detection

A single high-performance liquid chromatographic (HPLC) assay for the quantitative determination of dilevalol, the R,R isomer of labetalol, was developed for both plasma and urine. A significantly improved limit of detection for dilevalol in plasma was accomplished by extensive modification of an HPLC assay originally developed in our laboratory for labetalol. This simplified method is readily adaptable to urine and represents the first reported HPLC assay for the quantitative determination of dilevalol in this biofluid. Drug was recovered from plasma or urine by partition into diethyl ether under mildly alkaline conditions and back-extraction into dilute acid. Reversed-phase separation of dilevalol and the internal standard was accomplished on a 150 X 4.1 mm column commercially packed with a spherical (5 micron) macroporous copolymer (PRP-1). No interferences were observed in extracts obtained from drug-free plasma or urine. Selectivity for dilevalol in the presence of other beta-blockers was established. This method demonstrated a linear detector response to concentrations of unchanged drug typically observed in urine and plasma following once-a-day treatment with dilevalol hydrochloride (100-800 mg). The lowest limit of reliable quantitation was established at 1 ng/ml in plasma. The intra-assay precision (coefficient of variation) remained less than 6% at all concentrations evaluated from 1 to 800 ng/ml. In urine, the lowest limit of quantitation was validated to 20 ng/ml where the intra-assay precision (coefficient of variation) for unchanged drug was less than 4% at all concentrations evaluated up to 400 ng/ml. This method is suitable for routine quantitation of unchanged drug in human plasma and urine following the administration of therapeutically effective doses of dilevalol hydrochloride.     

Simple, rapid and selective method using high-performance liquid chromatography for the determination of bretylium in plasma.

A high-performance liquid chromatographic method with ultraviolet detection has been developed for the determination of bretylium in plasma. Following a single-step solid-phase extraction procedure, bretylium is selectively isolated and well recovered from plasma. The assay sensitivity is 0.156 micrograms/ml from 250-microliters plasma samples and its linearity was assessed up to 40 micrograms/ml. The method is accurate (101.0 +/- 5.4%) and precise (maximum coefficient of variation of 8%). It provides a simple and time-saving alternative to existing methods and is particularly suitable for pharmacokinetic studies.     

High-performance liquid chromatographic determination of BRB-I-28, a novel antiarrhythmic agent, in dog plasma and urine.

A sensitive reversed-phase high-performance liquid chromatographic (HPLC) technique with ultraviolet detection has been developed to determine the concentration of BRB-I-28 (I), a novel antiarrhythmic agent, in dog plasma and urine. The mobile phase was acetonitrile-methanol-37.5 mM phosphate buffer, pH 6.8-triethylamine (50:50:75:0.1, v/v). The compound was extracted from dog plasma and urine with chloroform after alkalinization with sodium hydroxide. The extraction recovery was 83% from plasma and 84% from urine. Good linearity (r > 0.996) was observed throughout the ranges 0.1-12.0 micrograms/ml (plasma) and 0.1-8.0 micrograms/ml (urine). Intra- and inter-assay variabilities were less than 4%. The lower limit of quantitation was 0.08 microgram/ml in either plasma or urine. HPLC analysis of plasma and urine samples from a dog treated with I has demonstrated that the method was accurate and reproducible.     

Method for the biological monitoring of hexahydrophthalic anhydride by the determination of hexahydrophthalic acid in urine using gas chromatography and selected-ion monitoring.

A method for the determination of hexahydrophthalic acid, a metabolite of hexahydrophthalic anhydride, in human urine has been developed. The urine was worked-up by liquid-solid extraction, esterified with boron trifluoride-methanol, and analysed by capillary gas chromatography and selected-ion monitoring. Hexadeuterium-labelled hexahydrophthalic acid was used as the internal standard. The precision was 4% at 0.7 microgram/ml and 5% at 0.07 microgram/ml. The recovery of the acid for the overall method was 101% at 0.07 micrograms/ml of urine (with a coefficient of variation of 4%) and 95% at 0.7 microgram/ml (coefficient of variation 2%). The limit of detection was 20 ng/ml urine.     

Simultaneous determination of clarithromycin and 14(R)-hydroxyclarithromycin in plasma and urine using high-performance liquid chromatography with electrochemical detection.

A sensitive method for the simultaneous high-performance liquid chromatographic determination of clarithromycin and its active metabolite in plasma and urine is described. Alkalinized samples were coextracted with an internal standard and analyzed on a C8 column using electrochemical detection. Recoveries were greater than or equal to 85% and consistent. Standard curves for plasma were linear in the range 0-2 micrograms/ml for both compounds (r greater than 0.99), with limits of quantification of approximately 10.03 micrograms/ml (0.5-ml sample). Within-day and day-to-day precision were good, with coefficients of variation mostly within +/- 5%; accuracy for both compounds were routinely within 90-110% of theoretical values. Standard curves for urine were linear in the range 0-100 micrograms/ml with limits of quantification of 0.5 micrograms/ml (0.2-ml sample). Urine assays also had similar within-day and day-to-day precisions and accuracy.     

High-performance liquid chromatographic method for the determination of a potential memory-enhancing compound (CL 275,838) and its desbenzyl metabolite in rat plasma or serum.

A rapid, selective, precise reversed-phase liquid chromatographic method has been developed for the determination of a potential memory-enhancing agent (CL 275,838) and its main metabolite (CL 286,527) in plasma and serum. The procedure includes isolation of compounds from proteins precipitated with acetonitrile, subsequent resolution by reversed-phase (Whatman Partisphere C8) high-performance liquid chromatography and ultraviolet detection. The assay was linear over the range 0.12-1.25 micrograms/ml of plasma or serum. The detection limit was 0.12 micrograms/ml, using 0.2 ml of plasma or serum. Intra- and inter-day validation studies indicated an acceptable precision and reproducibility of the method within the concentration range investigated, the overall coefficient of variation being less than 10%. The method is currently applied in support of pharmacological and toxicity studies of the compound in rodents.     

Improved high-performance liquid chromatographic method for the determination of apolipoproteins in serum high-density lipoproteins

Ofloxacin, fenbufen and its active metabolite, felbinac, were simultaneously extracted from 50 microliters of rat plasma and analysed by high-performance liquid chromatography on a reversed-phase column. Quantitative and reproducible determinations were possible for ofloxacin, fenbufen and felbinac over the concentration ranges 0.15-40, 0.3-80 and 0.45-45 micrograms/ml, respectively. The detection limits for all the drugs were lower than those reported previously. The recovery of ofloxacin, fenbufen and felbinac added to plasma was nearly 100% with a coefficient of variation of less than 3.0%. This method was found to be applicable to pharmacokinetic studies of each drug after the concomitant administration of ofloxacin and fenbufen.     

Determination of a potential antiasthmatic compound, tibenelast, and its application to phase I clinical trials

A sensitive and selective high-performance liquid chromatographic (HPLC) assay was developed for the determination of tibenelast, 5,6-diethoxybenzo[b]thiophene-2- carboxylic acid, in plasma and urine. The plasma assay involves protein precipitation with 4% trichloroacetic acid, while the urine assay is an automated solid-phase extraction procedure that utilizes the Waters Millilab workstation. The analysis was achieved by reversed-phase HPLC with ultraviolet detection at 313 nm. The quantitation limit of the assay was 50 ng/ml in plasma and 100 ng/ml in urine. The intra-day coefficient of variation for the plasma analysis was between 2.2 and 8.4%, while the overall inter-day coefficient of variation was 5.5 and 6.0% for the high and low calibration curves, respectively. The intra-day coefficient of variation for the urine analysis was between 0.3 and 3.0%, while the inter-day coefficient of variation was 2.1% for both the low and high validation samples. The assay methodology has been used in the evaluation of samples from pharmacokinetic and clinical safety studies.     

High-performance liquid chromatographic determination of lansoprazole and its metabolites in human serum and urine.

A simple and sensitive high-performance liquid chromatographic method with ultraviolet detection is described for the simultaneous determination of lansoprazole and its metabolites in human serum and urine. The analytes in serum or urine were extracted with diethyl ether-dichloromethane (7:3, v/v) followed by evaporation, dissolution and injection into a reversed-phase column. The recoveries of authentic analytes added to serum at 0.05-2 micrograms/ml or to urine at 1-20 micrograms/ml were greater than 88%, with the coefficients of variation less than 7.1%. The minimum determinable concentrations of all analytes were 5 ng/ml in serum and 50 ng/ml in urine. The method was successfully applied to a pharmacokinetic study of lansoprazole in human.     

High-performance liquid chromatographic procedure for the simultaneous determination of norfloxacin, fenbufen and felbinac in rat plasma

A high-performance liquid chromatographic method for the simultaneous determination of norfloxacin, fenbufen and felbinac extracted from 50 microliters of rat plasma is described. Chromatography was performed on a reversed-phase column with ultraviolet detection. By the present method, quantitative and reproducible determinations were possible for norfloxacin, fenbufen and felbinac over the concentration ranges of 0.2-20, 0.2-120 and 0.4-40 micrograms/ml, respectively. The recoveries of norfloxacin, fenbufen and felbinac added to plasma were nearly 100% with a coefficient of variation of less than 8.0%. This method was found to be applicable to pharmacokinetic studies of each drug after the concomitant administration of norfloxacin and fenbufen.     

Gas chromatographic assay for the new antitumor agent sulfamic acid diester (NSC 329680) and its stability in buffer, blood and plasma

A sensitive gas chromatographic assay with electron-capture detection has been developed for sulfamic acid diester (sulfamic acid 1,7-heptanediyl ester, NSC 329680) based on its conversion to 1,7-diiodoheptane in the presence of excess sodium iodide. The assay is linear up to 1 microgram/ml sulfamic acid diester and has a lower limit of detection of 25 ng/ml from 0.5 ml plasma. The coefficient of variation of the assay is 6.4% at 1 microgram/ml and 8.0% at 100 ng/ml. Sulfamic acid diester is relatively stable in 0.9% sodium chloride and 0.1 M sodium phosphate buffers, pH 7.0-9.0, with half-lives greater than 38 h. The major breakdown product of sulfamic acid diester is sulfamic acid 1,7-heptane-monoyl ester. When added to whole blood sulfamic acid diester shows concentration-dependent breakdown. At 50 and 100 micrograms/ml sulfamic acid diester, the half-time in whole blood is 6.9 h and 65% of the drug is sequestered by the blood cells. At 10 micrograms/ml sulfamic acid diester in blood, there is no detectable breakdown of the drug over 24 h and all of the drug is sequestered by the blood cells. Protein binding of sulfamic acid diester in human plasma is 82% at 10 micrograms/ml and 68% at 100 micrograms/ml.     

Determination of malotilate and its metabolites in plasma and urine

A method for the determination of malotilate (I), the corresponding monocarboxylic acid (II) and its decarboxylated product (III) in plasma is described. Plasma was extracted with chloroform spiked with internal standard. The residue, dissolved in methanol, was chromatographed on a reversed-phase column with a mobile phase of 60% acetonitrile and 1% acetic acid in water. The sensitivity limit for I, II and III was 50, 25 and 100 ng/ml of plasma, respectively. Compound I in the same plasma extract was also analysed by gas chromatography--electron-impact mass spectrometry. The base peaks m/z 160 for I and m/z 162 for internal standard (IV) were monitored; the sensitivity limit for I was 2.5 ng/ml of plasma. The determination of the metabolites of I, II and its conjugate (V), and isopropyl-hydrogen malonate (VI) in urine by high-performance liquid chromatography is also described. The limit of quantification for VI was 2.0 micrograms/ml, and the overall coefficient of variation of VI was 4.7%. The limit of quantification for II in urine was 0.5 micrograms/ml and that for V was 1.0 micrograms/ml as total II (II + V). The overall precision of the method was satisfactory. The method was used to determine plasma and urine concentrations in four dogs orally dosed with 100, 200 or 400 mg of malotilate.     

Determination of temazepam and temazepam glucuronide by reversed-phase high-performance liquid chromatography.

A rapid and sensitive method for extracting temazepam from human serum and urine is presented. Free temazepam is extracted from plasma and urine samples using n-butyl chloride with nitrazepam as the internal standard. Temazepam glucuronide is analyzed as free temazepam after incubating extracts with beta-glucuronidase. Separation is achieved using a C8 reversed-phase column with a methanol-water-phosphate buffer mobile phase. An ultraviolet detector operated at 230 nm is used and a linear response is observed from 20 ng/ml to 10 micrograms/ml. The limit of detection is 15.5 ng/ml and the limit of quantitation is 46.5 ng/ml. Coefficients of variation are less than 10% for concentrations greater than 50 ng/ml. Application of the methodology is demonstrated in a pharmacokinetic study using eight healthy male subjects.     

High-performance liquid chromatographic determination of cefonicid in human plasma and urine

A high-performance liquid chromatographic assay for determination of cefonicid concentrations in human plasma and urine samples has been developed using cefazolin as an internal standard. For the analysis of plasma samples two calibration curves were utilized covering the cefonicid concentration ranges of 0.05-1.0 microgram/ml and 1.0-50.0 micrograms/ml, respectively. Coefficients of variation of 7.4% or less were obtained for cefonicid concentrations of 0.05-50.0 micrograms/ml. Mean bias was +6.0% at 0.05 micrograms/ml cefonicid and between -2.1% and +1.6% for 1.0-50.0 micrograms/ml cefonicid. Plasma samples containing 30 ng/ml cefonicid could be well distinguished from blank plasma samples. Urine samples were analysed by using a calibration curve for cefonicid concentrations between 1.0 and 50.0 micrograms/ml. ranged from 8.6% at a cefonicid concentration of 1.0 microgram/ml to 0.5% at 50.0 micrograms/ml with a mean bias between -3.0% and +0.3%.     

Determination of p-chloronitrobenzene in plasma by reversed-phase high-performance liquid chromatography.

A simple, accurate and precise isocratic reversed-phase high-performance liquid chromatographic method was developed and validated for the determination of p-chloronitrobenzene (p-CNB) in rat plasma. A plasma sample was deproteinized with methanol containing the internal standard (p-bromonitrobenzene). The resulting methanol eluate obtained after centrifugation was filtered and injected into a high-performance liquid chromatograph (50 microliters each). A column packed with 5 microns octadecylsilane (ODS) spherical particles was used with isocratic elution of methanol-water (45:55, v/v) at a flow-rate of 1.0 ml/min. The compounds were detected by ultraviolet absorbance at 280 nm. The retention times of p-CNB and the internal standard were 12.5 and 15.5 min, respectively, at a column oven temperature of 30 degrees C. The results were linear from 0.05 to 100 micrograms/ml (r = 0.999), and the detection limit was 0.01 microgram/ml. The relative error and the coefficient of variation on replicate assays were less than 7 and 10%, respectively, for all concentrations studied. The overall recoveries of p-CNB were between 97 and 105%. Plasma samples could be stored for up to one month at -20 degrees C.     

Determination of the new morpholino anthracycline MX2.HCl and its metabolites in biological samples by high-performance liquid chromatography.

Methods for determining concentrations of a new morpholino anthracycline MX2.HCl and its metabolites in biological samples using reversed-phase high-performance liquid chromatography and fluorescence detection are described. The limits of detection were less than 1 ng/ml for all compounds after extraction from 0.5 ml of plasma using C18 Sep-Pak cartridges and consecutive solvent extraction. The recoveries from rat plasma ranged from 72.0 to 89.3%. The peak-height ratio of the fluorescence intensities of these compounds versus internal standard showed a linear correlation for concentrations up to at least 500 ng/ml in the plasma (correlation coefficient r greater than 0.999). The within-day and between-day precisions of this assay were in the range 0.8-8.7% (n = 5) and 2.0-3.5% (n = 5), respectively. The concentrations of these compounds in the blood and urine can be also determined by a slight modification of the extraction procedure.     

Simplified procedure for the determination of sotalol in plasma by high-performance liquid chromatography

A simple, specific and rapid reversed-phase high-performance liquid chromatographic (HPLC) procedure for sotalol determination is described requiring small plasma volumes. The high recovery of sotalol from plasma and the high precision of measurement obviate the need for an internal standard. Plasma samples (300 microliters) were deproteinised with 50 microliters of 70% (w/w) perchloric acid in disposable glass tubes. After vortex-mixing and centrifugation, 30 microliters of 4 M K2HPO4 were added followed by gentle shaking. A 20-microliters aliquot was then injected (by autosampler) for HPLC analysis. Chromatography was performed on a glass-lined 250 mm x 4 mm 5-micron C18 steel column. The mobile phase was 6% (v/v) acetonitrile in 0.08 M KH2PO4 buffer (pH 4.6). The flow-rate was 0.8 ml/min. Detection was by fluorescence with excitation and emission wavelengths at 235 and 310 nm, respectively. The retention time for sotalol was 7.1 min. Calibration was linear from 0.16 to 10 micrograms/ml in plasma (r greater than 0.999 for detector response to sotalol). The minimum concentration for quantitation was 0.08 micrograms/ml [within assay coefficient of variation (C.V.) less than 5%]. Recovery was near quantitative (greater than 98%) and replicate (intra-assay precision was less than 5% C.V.). Analysis of samples (n = 10) at concentrations of 0.42 and 4.2 micrograms/ml gave mean values of 0.44 and 4.3 micrograms/ml, respectively. The inter-assay C.V. values were 4.5 and 2.2%, respectively. Other clinically used antiarrhythmic drugs did not interfere. This assay can be performed using other commercial C18 analytical columns by suitable adjustment of mobile phase flow-rate and acetonitrile composition.     

High-performance liquid chromatographic procedures for the determination of temafloxacin in biological matrices.

A simple and precise high-performance liquid chromatographic procedure has been developed for the determination of temafloxacin and its trace level metabolites in biological matrices. Plasma samples are ultrafiltered after addition of an internal standard in a displacing reagent containing sodium dodecyl sulfate and acetonitrile. Plasma ultrafiltrates or diluted urines are chromatographed on a reversed-phase analytical column, using an ion-pair chromatographic mobile phase and fluorescence detection. The chromatographic system allows resolution and quantitation of temafloxacin's oxidative metabolites, which collectively account for less than 2% of the administered dose. The mean intra-assay coefficient of variation for determination of temafloxacin concentrations in plasma ranging from 0.05 to 10.0 micrograms/ml was 0.7%. The procedure was implemented at four laboratories for the analysis of over 12,000 samples from clinical studies. Inter-assay coefficients of variation estimated from routine analyses of quality control samples in these studies averaged 4% or lower for concentrations in the 0.15-10 micrograms/ml range. The limit of quantitation of the procedure is approximately 10 ng/ml; inter-assay coefficients of variation at 15 ng/ml averaged under 9%. Calibration curves were reproducible and highly linear, with correlation coefficients typically averaging over 0.9995. An alternative, more complex procedure, involving methylene chloride extraction, which extends the detection limits to below 1 ng/ml, is also described.     

Determination of cetirizine in human urine by high-performance liquid chromatography.

A high-performance liquid chromatographic method for the determination of the histamine H1-receptor antagonist cetirizine in human urine was developed. Cetirizine and the internal standard are extracted from acidified (pH 5) urine (0.5 ml) into chloroform and the organic layer is evaporated to dryness. The residue is chromatographed on a Spherisorb 5ODS-2 column using Pic A (5 mM aqueous tetrabutylammonium phosphate)-methanol-tetrahydrofuran (33:65:2, v/v) as the mobile phase with ultraviolet detection (230 nm). The calibration graph is linear from 0.1 to 10 micrograms/ml and using 0.5 ml of urine the detection limit is 20 ng/ml. The within-run relative standard deviation is less than 6% and the accuracy is within 10% of the theoretical value at concentrations between 0.1 and 10 micrograms/ml in urine. There is a good correlation (r = 0.99606) with a previously described capillary gas chromatographic assay.