Determination of amoxicillin in body fluids by reversed-phase liquid chromatography coupled with a post-column derivatization procedure

Quantitative methods for determination of amoxicillin in body fluids are described. They comprise separation by reversed-phase chromatography (LiChrosorb RP-8, 5 μm) of the aqueous supernatants obtained from plasma or urine after purification steps involving protein precipitation followed by extraction in the case of plasma, or a double extraction procedure in the case of urine, post-column derivatization with air segmentation, and finally measurement of the UV absorbance at 310 nm. The derivatization involves formation of the mercuric mercaptide of penicillenic acid and is specific for compounds with an intact penicillanic acid ring system.Detection limits achieved on injecting 200 μl of plasma and 20 μl of urine are about 25 ng/ml and 200 ng/ml, respectively, but it is possible to improve the sensitivity further by injecting larger volumes. Precisions (s_rel) obtained for determination of 0.10 and 0.45 μg/ml in plasma were 3.72 and 1.40%, respectively.Some problems regarding column stability originating from the injection of biological samples are discussed.     

Determination of methenamine in biological samples by gas—liquid chromatography

Methenamine (hexamethylenetetramine), a urinary disinfectant, was determined in human plasma and urine by gas—liquid chromatography with a short (10 m) open-bone glass capillary column (split ratio 1:20) and nitrogen-selective detector. An almost quantitative recovery (92.1%) was achieved by simple dilution of water-containing samples (0.5 ml) with acetone (4.5 ml). After centrifugation and aliquot (2 μl) of the supernatant was injected into the gas chromatograph. Selectivity and sensitivity of the nitrogen detector allowed the quantitation of unchanged methenamine in plasma and urine up to 24 h after a single therapeutic dose of 1 g.Reproducibility of the method was 7.6 and 2.1% (C.V.) in serum and urine, respectively. The time required for the analysis of one sample was approx. 2 min. Due to the simple extraction and short analysis time it was possible to analyze the samples concurrently with sample taking. Absorption of standard tablets and an enterosoluble preparation of methenamine hippurate was compared.     

Tryptophan and kynurenine determination in untreated urine by reversed-phase high-pressure liquid chromatography

A fast and sensitive method for the analysis of tryptophan and some of its metabolites is discussed. A reversed-phase chromatographic system with water mobile phase can separate tryptophan, N-formalkynurenine, kynurenine and 3-hydroxykynurenine in less than 15 min at a flow-rate of 1 ml/min. The application of the method to the analysis of tryptophan and kynurenine in untreated urine of a patient loaded with tryptophan is described. The ease and speed of analysis makes the method very attractive for clinical purposes. Among other things, it was found that tryptophan in untreated urine degrades with time, even if the sample is frozen at ?11°.     

Rapid assay for theophylline in clinical samples by reversed-phase high-performance liquid chromatography

A fast, sensitive and highly specific method for the determination of theophylline in human serum is reported. Using a C₁₅-bonded reversed-phase column with an acetonitrile—acetate buffer mobile phase theophylline is completely resolved not only from other dietary xanthines and their metabolites but also from co-administered drugs such as paracetamol and phenobarbitone. Use of β-hydroxyethyltheophylline as internal standard allows a within batch precision of 2.0% and a between batch variation of 3.0%. Factors involved in the development of the method and its performance are discussed.     

Quantitative analysis of sulpiride in body fluids by high-performance liquid chromatography with fluorescence detection

A high-performance liquid chromatographic method for the analysis of sulpiride, N-ethyl-2-(2-methoxy-5-sulphonamido-benzamido-methyl)-pyrrolidine, in body fluids is described. A structurally related compound, N-ethyl-2-(2,4-dimethoxy-benzamido-methyl)-pyrrolidine, was used as internal standard.A fluorescence detector with excitation maximum at 299 nm and emission maximum at 342 nm was used for the quantitation. The detection limit was about 10 ng/ml in serum and cerebrospinal fluid and about 200 ng/ml in urine. The experimental error was 5–10% in the concentration range 25–100 ng/ml. Some preliminary data from a pharmacokinetic study in healthy volunteers are presented. The half-life for sulpiride in serum was about 8 h. Sulpiride was also measured in cerebrospinal fluid from five drug-treated psychotic patients.     

Aromatic amino acids in amniotic fluid samples analyzed by reversed-phase liquid chromatography with spectrophotometric detection

The applicability of threshold logic units, a form of nonparametric pattern recognition, to the processing of metabolic profile data obtained by high-efficiency glass capillary column gas chromatography has been investigated. The test data included profiles of the volatile constituents of urine from normal individuals and from individuals with diabetes mellitus. A feature extraction algorithm allowed for dimensionality reduction and indicated the constituents most important in the normal versus pathological distinction. With an optimum number of dimensions, a normal versus pathological prediction rate of 93.75% was achieved. Gas chromatography—mass spectrometry was utilized to identify important profile constituents.     

Determination of 6-mercaptopurine and azathioprine in plasma by high-performance liquid chromatography

Using 1-ml plasma samples, levels of 6-mercaptopurine (6MP) as low as 5 ng/ml and azathioprine (AZA) as low as 40 ng/ml can be detected using a high-performance liquid chromatography reversed-phase column procedure following extraction. Both compounds were stable in frozen plasma for seven weeks. AZA stability in blood was temperature dependent; the half-lives of AZA breakdown to 6MP at 37° were 28 and 46 min in blood drawn from two rhesus monkeys. Plasma levels of 6MP were measured in a rhesus monkey following 6MP (1.47 mg/kg) and AZA (3 mg/kg) intravenous administration. 6MP levels were also measured in three renal transplant patients on daily 50- and 100-mg AZA doses. Peak levels (45–75 ng/ml) were reached within an hour and 6MP levels were detected for up to 7 h.     

Determination of tissue UDP-glucuronic acid levels by high-pressure liquid chromatography

A new and sensitive method to measure UDP-glucuronic acid extracted from as little as 25 mg wet weight tissue has been developed. This procedure employs high-pressure liquid chromatography and liquid scintillation spectrophotometry to measure p-[¹⁴C]nitrophenylglucuronide generated enzymatically from p-[¹⁴C]nitrophenol and UDP-glucuronic acid. The reaction was catalyzed by UDP-glucuronyltransferase obtained from rat liver microsomes. The tissue levels of UDP-glucuronic acid assayed were 2 to 20 μmol/100 g wet wt, which are well below the levels detectable by the widely used spectrophotometric method.