Metabolism of methaqualone in geriatric patients

Quantification of a new recreational drug 2-methoxyqualone in human hair using gas chromatography-tandem mass spectrometry

A method for identification and quantification of 2-methoxyqualone, an newly emerging quinazolinone derivative recreational drug, in human scalp hair was established using gas chromatography (GC)-tandem mass spectrometry (MS/MS). In this report, authentic cases are presented, in which the suspects were seized by police security bureau; the police in China requested our laboratory to identify and quantify the involved drug(s) of abuse in the hair samples of the suspects. After washing and cryo-grinding the authentic hair samples, the target compound was extracted with methanol, and the solvent layer was evaporated to dryness. The residue was reconstituted in methanol and analyzed by GC-MS/MS. 2-Methoxyqualone concentrations in the hair were between 35.1 and 116 pg/mg. The calibration curve of the substance in hair samples showed a good linearity in the concentration range of 10-1000 pg/mg (r > 0.998); the extraction recovery rate, 88.8-105.6 %; the interday and intraday precisions and accuracies (biases), not greater than 8.9 %. 2-Methoxyqualone in human hair had good stability under three different storage conditions at room (20 °C), refrigerated (4 °C) and frozen (- 20 °C) temperatures for at least 7 days. In the present report, simple and rapid quantification method for 2-methoxyqualone in human scalp hair have been established using GC-MS/MS and it could successfully be applied to authentic forensic toxicological cases. To our knowledge, this is the first report for quantification of 2-methoxyqualone in human hair samples.

Enantiomeric analysis of the five major monohydroxylated metabolites of methaqualone in human urine by chiral capillary electrophoresis

Methaqualone (MQ; 2-methyl-3-o-tolylquinazolin-4(3H)-one) is a hypnotic and anticonvulsive drug in which the rotation about the nitrogen-to-aryl bond between the planar 2-methyl-quinazolin-4(3H)-one structure and the o-tolyl moiety is sterically hindered at body temperature. MQ and its five major monohydroxylated metabolites found in urine, 4'-hydroxymethaqualone (4'OH-MQ), 2'-hydroxymethaqualone (2'-OH-MQ), 3'-hydroxymethaqualone (3'OH-MQ), 2-hydroxymethaqualone (2OH-MQ) and 6-hydroxymethaqualone (6OH-MQ), are thus chiral substances whose enantiomers are shown to be separable by chiral capillary electrophoresis at pH 2.1 in the presence of 50 mM (2-hydroxypropyl)-beta-cyclodextrin (OHP-beta-CD). Other neutral derivatives of beta-CD, namely (2-hydroxypropyl)-gamma-CD, (2,3,6-trimethyl)-beta-CD, and (2,6-di-O-methyl)-beta-CD were found to be able to resolve the enantiomers of some but not all of these six components. With OHP-beta-CD, simultaneous analysis of the enantiomers of MQ and its five metabolites is hampered by the difficulty in separating MQ and 4'OH-MQ, the major urinary metabolite. A two-step solid phase extraction process is shown to permit discrimination between these two compounds and thus analysis of MQ enantiomers in unhydrolyzed urines that were collected overnight after administration of 250 mg of racemic MQ. Furthermore, analysis of liquid/liquid or solid-phase extracts of enzymatically hydrolyzed urines reveals the distribution of the enantiomers of the five hydroxymetabolites of MQ and, for the first time, insight into the stereoselectivity of the MQ metabolism. The major metabolite, 4'OH-MQ, is shown to be excreted almost exclusively as single enantiomer. The two urinary enantiomers of 6OH-MQ are present at about equal amounts, whereas unequal amounts are noted for the enantiomers of 3'OH-MQ, 2OH-MQ, and 2'OH-MQ.

The effect of age on the competitive C- and N-oxidative pathways of methaqualone in women

The urinary excretion of the N-oxide and the glucuronides of five C-monohydroxy metabolizes of methaqualone has been studied in a group of young women aged 24-34 years and in a group of elderly women aged 85-87 years. The rate of appearance of the metabolites in the urine was slower in the elderly group but the relative importance of the six metabolites was the same in the two groups. There were differences in some metabolite ratios between the two groups, but only one difference approached statistical significance. The metabolite excretion in a 80 year old woman who had received methaqualone daily for over ten years was consistent with that of the elderly group. The results indicate that the ageing process per se and chronic weak hepatic enzyme induction in the elderly are not accompanied by changes in the relative importance of competitive metabolic pathways.

Metabolic oxidation of methaqualone in extensive and poor metabolisers of debrisoquine

The metabolism of methaqualone to the glucuronides of 5 C-monohydroxy metabolites and to the N-oxide has been studied in 2 groups of healthy young adults phenotyped as extensive and poor metabolisers of debrisoquine. No significant interphenotype differences were observed with respect to the excretion of any of the 6 metabolites. It is probable that the genetic regulation of the pathways leading to these metabolites is at a locus other than that which is responsible for the regulation of the oxidation of debrisoquine, guanoxan, phenacetin, phenytoin and sparteine.

The kinetics of the urinary excretion of the N-oxide and glucuronides of methaqualone in man

The urinary excretion of the N-oxide and the glucuronides of five C-monohydroxy metabolites of methaqualone has been studied following the oral administration of a single dose of the drug. The apparent first order rate constants for the excretion of each metabolite (kme) were shown to be numerically smaller than the overall elimination rate constant for methaqualone (k10). The Kme values tended to be greater than or equal to the corresponding apparent first order rate constants for the formation of the metabolite (km) but corresponding kme and km values were always of the same order magnitude. The kme values for the glucuronides were much smaller than the literature kme value for paracetemol glucuronide. The rate of renal elimination of the metabolites was variably sensitive to urine flow but over a period of time of 8 hours or greater the total amount of metabolite recovered in the urine was was independent of the total urine volume.

The effect of age on the pharmacokinetics of metoprolol and its metabolites

1 Plasma concentrations of metoprolol and a pharmacologically active metabolite, H119/66, have been measured in young and elderly volunteers after a single dose of 100 mg metoprolol tartrate and after repeated administrated over a period of 1 week. Whilst concentrations of metoprolol are similar in each group, concentrations of H119/66 are approximately twice as high in the elderly. 2 Concentrations of unchanged metoprolol and of the major, but pharmacologically inactive, metabolite, H117/04, together with the two active metabolites of metoprolol have been determined in urine. Only the excretion of metoprolol was diminished in the elderly. 3 Areas under the plasma concentration curve for metoprolol after repeated administration are greater than would be predicted from single dose data, and possible explanations for this are discussed. Concentrations of the pharmacologically active metabolite, H119/66, remain unaltered during chronic dosing of metoprolol. 4 This study has shown that the effect of age on the pharmacokinetics of metoprolol and its metabolites is less pronounced than that observed for other drugs.

The metabolism of methaqualone in patients with biliary cirrhosis or secondary carcinoma of the liver

The metabolism of methaqualone has been studied in three patients with secondary carcinoma of the liver and two with biliary cirrhosis. The urinary excretion of five C-monohydroxy metabolites and the N-oxide was studies in the 24 h period immediately after oral dosing with 250 mg methaqualone (Melsed). In both patients with biliary cirrhosis and one with primary carcinoma of the bile duct or pancreas with secondaries in the liver the pattern of metabolites was normal. In a patient with oat cell carcinoma with secondaries in the liver some metabolite patterns were disturbed and increased metabolite excretion occurred. A patient with primary carcinoma of the breast with secondaries in the liver gave a completely abnormal metabolite pattern.