Determination of a new antifilarial drug, UMF-058, and mebendazole in whole blood by high-performance liquid chromatography

A rapid and selective high-performance liquid chromatographic assay for simultaneous quantitative determination of a new antifilarial drug (UMF-058, I) and mebendazole (MBZ) is described. After a simple extraction from whole blood, both compounds were analysed using a C₁₈ Nova Pak reversed-phase column and a mobile phase of methanol—0.05 M ammonium dihydrogenphosphate (50:50, v/v) adjusted to pH 4.0, with ultraviolet detection at 291 nm. The average recoveries of I and MBZ over a concentration range of 25–250 ng/ml were 92.0 ± 7.7 and 84.4 ± 4.4%, respectively. The minimum detectable concentrations in whole blood for I and MBZ were 7 and 6 ng/ml, respectively. This method was found to be suitable for pharmacokinetic studies.     

The use of fluorogenic substrates to monitor thrombin generation for the analysis of plasma and whole blood coagulation

Thrombin is central to the process of coagulation and monitoring its activity is a reliable indicator of the rate and extent of coagulation. I have employed a range of fluorogenic peptide substrates as indicators of coagulation via the formation of active thrombin. This system enabled coagulation to be monitored in a kinetic fashion, and the use of fluorescence enabled a wide range of samples to be analyzed including lyophilized plasma containing fibrin, fresh platelet-poor plasma, platelet-rich plasma, and even whole blood. Coagulation could be monitored following triggering by tissue factor, ellagic acid, or each of the proteases preceding thrombin in the coagulation network. Using this assay procedure I have investigated the anticoagulant activities of a number of compounds and the results indicate that this assay would be useful for the kinetic analysis of coagulation in various plasma preparations, or even whole blood.     

High-performance liquid chromatographic assay for CI-980, a novel 1-deaza-7,8-dihydropteridine anticancer agent,in human plasma and urine

CI-980, a 1-deaza-7,8-dihydropteridine, is a novel anticancer agent that is a potent mitotic inhibitor acting as a tubulin binder similar to the vinca alkaloids. CI-980 has shown equivalent or superior anticancer activity in vitro compared to vincristine and retains full activity against vincristine resistant tumors in vitro. A high-performance liquid chromatographic (HPLC) assay was developed and validated for human plasma and urine to support Phase 1 clinical trials. CI-980 and PD 080658, internal standard, were isolated from 2-ml samples of human plasma and urine by solid-phase extraction with Bond-Elut C₁₈ cartridges. Urine samples must be pretreated with bovine serum albumin (BSA) to minimize the binding of CI-980 to glass and some plastics. The eluate from the cartridges for both matrices was evaporated to dryness and taken up in mobile phase. Zorbax RX C₁₈ columns, mobile phase buffer of 10 mM ammonium dihydrogen phosphate at pH 7.5 and a flow--rate of 0.75 ml/min were used for both matrices. Column dimensions, column temperature and mobile phase acetonitrile-buffer ratio were 300 mm × 4.6 mm I.D., 30°C and 38:62 (v/v), respectively, for the plasma assay and 250 mm × 4.6 mm I.D., 35°C and 40:60 (v/v), respectively, for the urine assay. Column effluent was monitored fluorometrically for the plasma method using excitation and emission wavelengths of 388 nm and 473 nm, respectively. Ultraviolet detection at 380 nm was used for the urine method. Peak-area ratios were proportional to CI-980 concentrations from 0.2 to 25 ng/ml and 1 to 100 ng/ml for plasma and urine, respectively. CI-980 in water will bind to glass and plastics but not PTFE or stainless steel. Urine calibration standards were frozen prior to use in order to compensate for loss of CI-980 due to freezing in this matrix. The accuracy of the assay was within 4.7%, with a precision of 5.6% for both matrices. Recoveries ranged from 93.8 to 102% and 90.7 to 92.3% for plasma and urine, respectively. CI-980 was stable in plasma and urine for at least 275 and 217 days, respectively, when stored at −70°C. The assay is suitable for studying the clinical pharmacokinetics of CI-980.     

Determination of creatinine in whole blood, plasma, and urine by high-performance liquid chromatography

A sensitive method for the specific determination of creatinine in whole blood, plasma, and urine with high precision and accuracy is described. Samples were deproteinized by addition of acetonitrile and analyzed by high-performance liquid chromatography using a cation-exchange column with a mobile phase of 9% acetonitrile in 40 mM ammonium phosphate (pH 4.0). The recoveries of creatinine added to blood and plasma were almost complete, ranging from 99 to 101%. The coefficients of variation were very small, 1.6% for blood and plasma and 1.5% for urine. Samples can be assayed in 11-min intervals subsequent to the initial injection. As little as 2 microliter of blood or plasma or 0.02 microliter of urine is sufficient for chromatographic analysis. The present method was successfully used for the accurate measurement of small arterial-venous differences of creatinine concentrations in blood across body organs and showed that in the sheep creatinine is produced in the muscles and is excreted by the kidneys. The method is also suitable for routine analysis of creatinine in clinical laboratories.     

The in vitro loss of penicillamine in plasma,albumin solutions,and whole blood: Implications for pharmacokinetic studies of penicillamine

The recent development of a high performance liquid chromatography assay method for the analysis of penicillamine in biological samples such as plasma, whole blood, and urine has provided a specific and sensitive assay method to aid in the study of penicillamine pharmacokinetics. Several investigators have reported measuring the plasma concentration of penicillamine. Some of these investigators have indicated that the plasma must be assayed immediately. However, such restrictions can limit the feasibility of a pharmacokinetic study. The results of this paper demonstrate the instability of penicillamine in plasma, albumin solutions, and whole blood. The rate of loss of penicillamine was shown to be influenced by the concentration of albumin. As a result of the significant loss of penicillamine over a short period of time, plasma or whole blood samples must be deproteinated immediately upon collection to avoid the loss of reduced penicillamine. Methods are presented for the preparation of biological samples so that the oxidation of penicillamine is prevented and the samples can be held for several days prior to analysis.     

High-performance liquid chromatographic assay for the measurement of the novel microtubule inhibitor 1069C85 in biological tissues and fluids

1069C85 is a novel tubulin binder developed to circumvent the resistance associated with the Vinca alkaloids. Cytotoxic activity has been demonstrated in vitro against a variety of tumour cell lines, including a variant of the P388 leukaemia with acquired resistance to vincristine. A phase I clinical trial is planned and an assay suitable for preclinical and clinical pharmacokinetics has been developed. A high-performance liquid chromatographic (HPLC) assay is described which allows measurement of 1069C85 in plasma, urine, and tissue samples. The method uses reversed-phase chromatography with isocratic elution and detection by fluorescence at 406 nm following excitation at 340 nm. The assay is specific, sensitive (limit of sensitivity 0.25 ng/ml) and reproducible (coefficient of variation <5%). The method has been used to study the pharmacokinetics of 1069C85 in Balb C mice following a single oral dose of 1 mg/kg. The maximum plasma concentration was reached 15 min after administration and subsequent elimination was slow with a half life of 6.5 ± 2.2 h. The drug remained detectable in plasma, at 1 ± 0.5 ng/ml, 24 h after this dose. This assay will be used to determine the pharmacokinetic profile of 1069C85 in mice and in a forthcoming phase I clinical trial.     

Determination of cyclizine and norcyclizine in plasma and urine using gas—liquid chromatography with nitrogen selective detection

A rapid, sensitive and specific high-performance liquid chromatographic (HPLC) assay was developed for the determination of 8-chloro-6-(2-chlorophenyl)-4H-imidazo-[1,5-a]-[1,4]-benzodiazepine-3-carboxamide [I] and its 4-hydroxy metabolite, 8-chloro-6-(2-chlorophenyl)-4-hydroxy-4H-imidazo-[1,5-a][1,4]-benzodiazepine-3-carboxamide [II] in whole blood, plasma or urine. The assay for both compounds involves extraction into diethyl ether—methylene chloride (70:30) from blood, plasma, or urine buffered to pH 9.0. The overall recoveries of [I] and [II] are 92.0 ± 5.4% (S.D.) and 90.3 ± 4.9% (S.D.), respectively. The sensitivity limit of detection is 50 ng/ml of blood, plasma, or urine using a UV detector at 254 nm. The HPLC assay was used to monitor the blood concentration—time fall-off profiles, and urinary excretion profiles in the dog following single 1 mg/kg intravenous and 5 mg/kg oral doses, and following multiple oral doses of 100 mg/kg/day of compound [I].     

Enantioselective and highly sensitive determination of carvedilol in human plasma and whole blood after administration of the racemate using normal-phase high-performance liquid chromatography

A highly sensitive HPLC method for enantioselective determination of carvedilol in human whole blood and plasma was developed. Carvedilol and S-carazolol as an internal standard extracted from whole blood or plasma were separated using an enantioselective separation column (Chiralpak AD column; 2.0 diameter x 250 mm) without any chiral derivatizations. The mobile phase was hexane:isopropanol:diethylamine (78:22:1, v/v). The excitation and emission wavelengths were set at 284 and 343 nm, respectively. The limits of quantification for the S(-)- and R(+)-carvedilol enantiomers in plasma and blood were both 0.5 ng/ml. Intra- and inter-day variations were less than 5.9%. As an application of the assay, concentrations of carvedilol enantiomer in plasma and blood samples from 15 patients treated with carvedilol for congestive heart failure were determined.     

Determination of 6,4′-bis-(2-imidazolinylhydrazone)-2-phenylimidazo[1,2-a]pyridine in plasma and whole blood by high-performance liquid chromatography

A selective and sensitive HPLC assay for the quantitative determination of a new antifilarial drug, 6,4′-bis-(2-imidazolinylhydrazone)-2-phenylimidazo[1,2-a]pyridine (CDR 101) is described. After extraction from plasma and blood, CDR 101 was analysed using a C₁₈ Nucleosil ODS column (250×4.6 mm, 5 μm particle size) and mobile phase of acetonitrile-0.05 M ammonium acetate adjusted to pH 3.0, with UV detection at 318 nm. The mean recoveries of CDR 101 in plasma and blood over a concentration range of 25–500 ng/ml were 95.5±2.01% and 83.3±1.87%, respectively. The within-day and day-to-day coefficient of variations for plasma were 3.23-6.21% and 2.59-9.90%, respectively, those for blood were 2.59-5.92% and 2.89-6.82%, respectively. The minimum detectable concentration for CDR 101 was 1 ng/ml in plasma and 2.5 ng/ml in whole blood. This method was found to be suitable for clinical pharmacokinetic studies.     

Determination of a chemoprotective agent, 2-(allylthio)pyrazine, in plasma, urine and tissue homogenates by high-performance liquid chromatography

A high-performance liquid chromatographic method was developed for the determination of a chemoprotective agent, 2-(allylthio)pyrazine (I), in human plasma and urine, and in rat blood and tissue homogenate using diazepam as an internal standard. The sample preparation was simple; 2.5 volumes of acetonitrile were added to the biological sample to deproteinize it. A 50–100 μl aliquot of the supernatant was injected onto a C₁₈ reversed-phase column. The mobile phase employed was acetonitrile–water (55:45, v/v), and it was run at a flow-rate of 1.5 ml/min. The column effluent was monitored using an ultraviolet detector at 330 nm. The retention times for I and the internal standard were 4.0 and 5.1 min, respectively. The detection limits of I in human plasma and urine, and in rat tissue homogenate (including blood) were 20, 20 and 50 ng/ml, respectively. The coefficients of variation of the assay (within-day and between-day) were generally low (below 6.1%) in a concentration range from 0.02 to 10 μg/ml for human plasma and urine, and for rat tissue homogenate. No interferences from endogenous substances were found.     

Determination of the anti-tumor agent, 10-chloro-5-(2-dimethylaminoethyl)-7H-indolo[2,3-C] quinolin-6(5H)-one in blood or plasma by high-performance liquid chromatography

A sensitive and specific high-performance liquid chromatographic assay was developed for the determination of 10-chloro-5-(2-dimethylaminoethyl)-7H-indolo[2,3-C] quinolin-6(5H)-one [I] in blood or plasma with an overall recovery of 100.3 ± 9.1% and a limit of quantitation of 1.0 ng per ml of blood or plasma. The assay was used to determine blood concentrations of the drug in the rat following oral administration by intubation of a 1.17-mg dose of [I] - HCl.     

High-performance liquid chromatographic assay for xanomeline, a specific M-1 agonist, and its metabolite in human plasma

A reversed-phase high-performance liquid chromatographic assay (HPLC) was utilized for monitoring xanomeline (LY246708/NNC 11–0232) and a metabolite, desmethylxanomeline, in human plasma. Xanomeline, desmethylxanomeline and internal standard were extracted from plasma with hexane at basic pH. The organic solvent extract was evaporated to dryness with nitrogen and the dried residue was reconstituted with 0.2 M HCl-methanol (50:50, v/v). A Zorbax CN 150 × 4.6 mm I.D., 5-μm column and mobile phase consisting of 0.5% (5 ml/l) triethylamine (TEA) adjusted to pH 3.0 with concentrated orthophosphoric acid-tetrahydrofuran (THF) (70:30, v/v) produced consistent resolution of analytes from endogenous co-extracted plasma components. Column effluent was monitored at 296 nm/0.008 a.u.f.s. and the assay limit of quantification was 1.5 ng/ml. A linear response of 1.5 to 20 ng/ml was sufficient to monitor plasma drug/metabolite concentrations during clinical trials. HPLC assay validation as well as routine assay quality control (QC) samples indicated assay precision/accuracy was better than ±15%.     

Quantitative determination of MK-0767, a dual alpha/gamma peroxisome proliferator-activated receptor (PPAR) agonist, in human plasma by liquid chromatography-tandem mass spectrometry

5-[2,4-Dioxothiazolidin-5-yl)methyl]-2-methoxy-N-[[(4-trifluoromethyl)-phenyl]methyl]benzamide (I, MK-0767 or KRP-297, Fig. 1), is a dual alpha/gamma peroxisome proliferator-activated receptor (PPAR) agonist. A LC-MS/MS method for the determination of I in human plasma has been successfully developed, validated and applied to clinical programs. The analyte and internal standard (II) are extracted from 0.05 mL plasma via solid phase extraction (SPE). HPLC is used for the separation of I and II from possible co-extracted endogenous and other compounds. Detection is by MS/MS in multiple reaction monitoring (MRM) mode using a TurboIonSpray probe. The whole sample preparation is automated by using a Packard Multiprobe liquid handling system. The linear range is 4-2000 ng/mL in plasma. Recoveries were 71.1% and 69.4% for I and II, respectively. The method exhibited good linearity, reproducibility and sensitivity, selectivity and robustness when used for the analysis of clinical samples.     

Determination of a new proton pump inhibitor, YH1885, in human plasma and urine by high-performance liquid chromatography

A high-performance liquid chromatographic method was developed for the determination of a new proton pump inhibitor, YH1885 (I), in human plasma and urine, and rat blood and tissue homogenate using fenticonazole as an internal standard. The sample preparation was simple: a 2.5 volume of acetonitrile was added to the biological sample to deproteinize it. A 50-μl aliquot of the supernatant was injected onto a C₈ reversed-phase column. The mobile phase employed was methanol-0.005 M tetrabutylammonium dihydrogenphosphate (77:23, v/v), and it was run at a flow-rate of 1.0 ml/min. The column effluent was monitored using an ultraviolet detector at 270 nm. The retention times for I and the internal standard were 9.0 and 10.3 min, respectively. The detection limits for I in human plasma and urine, and in rat tissue homogenate (including blood) were 50, 100 and 100 ng/ml, respectively. The coefficients of variation of the assay (within-day and between-day) were generally low (below 8.84%) for human plasma and urine, and for rat tissue homogenate. No interferences from endogenous substances were found.     

Cimetidine assay in human plasma by liquid chromatography

An assay for the determination of cimetidine in human plasma is described. Cimetidine was extracted from alkalized plasma with ethyl acetate, washed once over hydrochloric acid, re-extracted into ethyl acetate, and the organic phase was evaporated to dryness. The residue was dissolved in ethanol and injected into a liquid chromatograph.In vitro sulphoxidation was found to occur in whole blood, for which reason the assay was performed in plasma. The accuracy of the method was found to be within 3% and the lower limit for sensitivity was demonstrated to be 0.1 mg/l using 750 μl plasma.Five volunteers received 1 g cimetidine perorally per day given in four doses with various intervals. Blood samples were drawn hourly, five dose intervals over two days. The average minimum concentration of plasma cimetidine was found to correlate significantly with the mean value of the area under the time/concentration curve over a period of three dose intervals (r = 0.96).     

Stereospecific high-performance liquid chromatographic assay of ketoprofen in human plasma and urine

A high-performance liquid chromatographic (HPLC) assay suitable for the analysis of the enantiomers of ketoprofen (KT), a 2-arylpropionic acid (2-APA) non-steroidal antiinflammatory drug (NSAID), in plasma and urine was developed. Following the addition of racemic fenoprofen as internal standard (I.S.), plasma containing the KT enantiomers and I.S. was extracted by liquid-liquid extraction at an acidic pH. After evaporation of the organic layer, the drug and I.S. were reconstituted in mobile phase and injeted into the HPLC system. The enantiomers were separated at ambient temperature on a commercially available 250 × 4.3 mm amylose carbamate-packed chiral column (Chiralpak AD) column with hexane-isopropyl alcohol-trifluoroacetic acid (80:19.9:0.1, v/v/v) as the mobile phase pumped at 1.0 ml/min. The enantiomers of KT were quantified by ultraviolet detection with the wavelength set at 254 nm. The assay described allows for the direct quantification of KT enantiomers without pre-column derivatization, and is suitable for clinical studies of KT enantiomers in human plasma and urine after administration of therapeutic doses.     

High-performance liquid chromatographic assay of 5-fluorouracil in human erythrocytes,plasma and whole blood

A HPLC assay method was modified and validated for the determination of 5-fluorouracil in human red blood cells, plasma and whole blood with a two-fold increased sensitivity (detection limit=10 ng/ml). The assay was linear from 25 to 1500 ng/ml and the accuracy ranged from 96.7 to 103.2% at 25 ng/ml, 94.8 to 99.4% at 500 ng/ml, and 98.9 to 99.5% at 1500 ng/ml. Intra-assay and inter-assay coefficients of variation were less than 8% over the range of concentrations and less than 8% over 10 days of analysis. After intravenous bolus and infusion of 5-fluorouracil in patients with colorectal cancer, the concentrations of 5-fluorouracil in whole blood were 108–111% of plasma concentrations, while packed red blood cells levels were 8–15% of plasma concentrations in the five patients studied. By utilising basic analytical hardware, this represents an accurate, precise, reproducible and affordable method for 5-fluorouracil pharmacokinetics investigation and therapeutic drug monitoring.     

Stereospecific determination of mefloquine in biological fluids by high-performance liquid chromatography

A sensitive stereoselective HPLC method was developed for determination of mefloquine (MFQ) enantiomers in plasma, urine and whole blood. The assay involved liquid-liquid extraction of MFQ from biological fluids with a mixture of hexane and isopropanol in the presence of sodium hydroxide and derivatization of the residue by (+)-(S)-naphthylethylisocyanate (NEIC) as chiral derivatizing reagent. Separation of the resulting diastereomers was performed on a silica normal-phase column using chloroform-hexane-methanol (25:74:1) as the mobile phase with a flow-rate of 1 ml/min. Using 200 μl of plasma or whole blood, the limit of determination was 0.2 μg/ml with UV detection for both enantiomers. The limit of determination in 500 μl of urine was 0.08 μg/ml with UV detection.     

High-performance liquid chromatographic determination of pyrazoloacridine, a nitro-9-methoxyacridine anticancer agent, in human plasma

Pyrazoloacridine (PZA) is a 9-methoxy substituted acridine with a reducible nitro group. PZA has shown selective solid tumor cytotoxicity with activity against hypoxic cells, non-cycling cells and cells expressing the multidrug resistant phenotype. A high-performance liquid chromatographic (HPLC) assay was developed and validated for the determination of PZA in human plasma to support phase II clinical trials. PZA and ethyl orange, the internal standard, were isolated from human plasma by precipitating plasma proteins with methanol, and centrifuging to pellet the proteins. The resulting supernatant was injected onto a cyanopropyl HPLC column eluted isocratically with a mobile phase consisting of 125 mM ammonium acetate buffer pH 4.75-acetonitrile (76:24, v/v). A single wavelength at 460 nm was used for detection. Relative standard deviations for the assay ranged from 5.0% to 12.2% for four different drug concentrations and the limit of quantitation was 100 ng/ml. During the validation short term stability of the drug in plasma and stability of PZA on repeated freezing and thawing of plasma was evaluated. Overall recovery of PZA was 88%. This simple assay was found suitable for studying the clinical pharmacokinetics of PZA.     

A chemiluminescense-based assay for S-nitrosoalbumin and other plasma S-nitrosothiols

The lack of a simple assay for the quantification of S-nitrosothiols in complex biological matrices has hampered our understanding of their contribution to normal physiology and pathophysiological states. In this paper we describe an assay based upon the release of nitric oxide by reaction with a mixture consisting of Cu(I), iodine and iodide with subsequent quantification by chemiluminescense. With this method we can detect levels of S-nitrosothiols down to 5 nM in plasma. Following alkylation of free thiols with N-ethylmaleimide, and removal of nitrite with acidified sulfanilamide, we were able to measure known amounts of S-nitrosoalbumin added to plasma or whole blood, with an inter-assay variation for plasma S-nitrosothiols of ～4%. Further studies showed that the mean concentration of circulating S-nitrosothiols in venous plasma of healthy human volunteers was 28 ± 7 nM.