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Literature DB >> 6804244

Clearance of diazepam can be impaired by its major metabolite desmethyldiazepam.

Abstract

The pharmacokinetics of a single intravenous dose of diazepam 0.1 mg/kg was studied in 6 healthy volunteers, in random order under controlled conditions and following pretreatment with its major metabolite, desmethyldiazepam (20 mg/kg/day) for one week. In the two subjects with the highest plasma concentration of desmethyldiazepam (990 and 1100 ng/ml, respectively), total plasma clearance (Cl) of diazepam was reduced after desmethyldiazepam, by 31% and 54%, respectively. In three individuals there was a moderate decrease of 14% to 21%, and no effect was seen in one volunteer. Cl was significantly reduced (11.5 +/- 1.8 vs. 9.1 +/- 3.3 ml/min; p = 0.015) and elimination half-life tended to be prolonged (38.5 +/- 10.4 vs. 65.8 +/- 67.1 h; p = 0.15). It is concluded that high concentrations of desmethyldiazepam can influence the elimination of its parent drug diazepam by product inhibition.

Entities: Chemical

Mesh：

Substances：
Nordazepam
Diazepam

Year: 1981 PMID： 6804244 DOI： 10.1007/BF00637518

Source DB: PubMed Journal: Eur J Clin Pharmacol ISSN： 0031-6970 Impact factor: 2.953

15 in total

3. Inhibition of diazepam metabolism in microsomal- and perfused liver preparations of the rat by desmethyldiazepam, N-methyloxazepam and oxazepam.

Authors: E M Savenije-Chapel; A Bast; J Noordhoek
Journal: Eur J Drug Metab Pharmacokinet Date: 1985 Jan-Mar Impact factor: 2.441

Review 4. Time-dependence in benzodiazepine pharmacokinetics. Mechanisms and clinical significance.

Authors: T W Guentert
Journal: Clin Pharmacokinet Date: 1984 May-Jun Impact factor: 6.447

5. Concentration-dependent metabolism of diazepam in mouse liver.

Authors: M V St-Pierre; K S Pang
Journal: J Pharmacokinet Biopharm Date: 1995-06

5 in total

Clearance of diazepam can be impaired by its major metabolite desmethyldiazepam.

1. Inhibition of drug metabolism by hydroxylated metabolites: cross-inhibition and specificity.

2. Pharmacokinetics of diazepam following multiple-dose oral administration to healthy human subjects.

3. Plasma concentrations of diazepam and desmethyldiazepam during chronic diazepam therapy.

4. Pharmacokinetic profile of diazepam in man following single intravenous and oral and chronic oral administrations.

5. Pharmacokinetics of diazepam in dogs, mice and humans.

6. Binding to cytochrome P-450 and metabolism of desmethylimipramine and metabolites in rat liver microsomes.

7. Shortcomings in pharmacokinetic analysis by conceiving the body to exhibit properties of a single compartment.

8. Metabolism of diazepam in rat, dog, and man.

9. Product inhibition during the hepatic microsomal N-demethylation of aminopyrine in the rat.

10. Pharmacokinetics and plasma binding of diazepam in man, dog, rabbit, guinea pig and rat.

1. Development of tolerance and cross-tolerance to the psychomotor actions of lorazepam and diazepam in man.

2. Prediction of diazepam disposition in the rat and man by a physiologically based pharmacokinetic model.

3. Inhibition of diazepam metabolism in microsomal- and perfused liver preparations of the rat by desmethyldiazepam, N-methyloxazepam and oxazepam.

Review 4. Time-dependence in benzodiazepine pharmacokinetics. Mechanisms and clinical significance.

5. Concentration-dependent metabolism of diazepam in mouse liver.