BIOMAT Database Logo BIOMAT Database Logo

Effects of nifedipine on hepatic drug oxidation. 1988

T H Dickinson, and J M Egan, and D R Abernethy
Division of Clinical Pharmacology, Brown University, Providence, R.I.

To determine whether inhibition of drug oxidation is a general property of all calcium antagonist drugs or just of a few, we measured effects of therapeutic doses of nifedipine on antipyrine biotransformation. Antipyrine was administered in random order to 10 subjects while drug-free and while taking nifedipine 30 mg 3 times daily. Total antipyrine clearance (means +/- SE, 43.1 +/- 4.8 control vs. 50.4 +/- 6.5 ml/min; NS) tended to increase but not significantly. Elimination half-life decreased slightly (13.7 +/- 1.0 control vs. 11.7 +/- 0.9; p less than 0.05). Antipyrine metabolite excretion, measured to evaluate selective oxidative pathways, was unaffected by concurrent nifedipine administration. Nifedipine in therapeutic doses had no effect on antipyrine oxidation, unlike verapamil and diltiazem, both of which inhibit hepatic drug oxidation. Inhibition of drug oxidation appears not to be a general property of calcium antagonist drugs.

UI MeSH Term Description Entries
D008099 Liver A large lobed glandular organ in the abdomen of vertebrates that is responsible for detoxification, metabolism, synthesis and storage of various substances. Livers
D008297 Male Males
D009543 Nifedipine A potent vasodilator agent with calcium antagonistic action. It is a useful anti-anginal agent that also lowers blood pressure. Adalat,BAY-a-1040,Bay-1040,Cordipin,Cordipine,Corinfar,Fenigidin,Korinfar,Nifangin,Nifedipine Monohydrochloride,Nifedipine-GTIS,Procardia,Procardia XL,Vascard,BAY a 1040,BAYa1040,Bay 1040,Bay1040,Monohydrochloride, Nifedipine,Nifedipine GTIS
D010084 Oxidation-Reduction A chemical reaction in which an electron is transferred from one molecule to another. The electron-donating molecule is the reducing agent or reductant; the electron-accepting molecule is the oxidizing agent or oxidant. Reducing and oxidizing agents function as conjugate reductant-oxidant pairs or redox pairs (Lehninger, Principles of Biochemistry, 1982, p471). Redox,Oxidation Reduction
D003577 Cytochrome P-450 Enzyme System A superfamily of hundreds of closely related HEMEPROTEINS found throughout the phylogenetic spectrum, from animals, plants, fungi, to bacteria. They include numerous complex monooxygenases (MIXED FUNCTION OXYGENASES). In animals, these P-450 enzymes serve two major functions: (1) biosynthesis of steroids, fatty acids, and bile acids; (2) metabolism of endogenous and a wide variety of exogenous substrates, such as toxins and drugs (BIOTRANSFORMATION). They are classified, according to their sequence similarities rather than functions, into CYP gene families (>40% homology) and subfamilies (>59% homology). For example, enzymes from the CYP1, CYP2, and CYP3 gene families are responsible for most drug metabolism. Cytochrome P-450,Cytochrome P-450 Enzyme,Cytochrome P-450-Dependent Monooxygenase,P-450 Enzyme,P450 Enzyme,CYP450 Family,CYP450 Superfamily,Cytochrome P-450 Enzymes,Cytochrome P-450 Families,Cytochrome P-450 Monooxygenase,Cytochrome P-450 Oxygenase,Cytochrome P-450 Superfamily,Cytochrome P450,Cytochrome P450 Superfamily,Cytochrome p450 Families,P-450 Enzymes,P450 Enzymes,Cytochrome P 450,Cytochrome P 450 Dependent Monooxygenase,Cytochrome P 450 Enzyme,Cytochrome P 450 Enzyme System,Cytochrome P 450 Enzymes,Cytochrome P 450 Families,Cytochrome P 450 Monooxygenase,Cytochrome P 450 Oxygenase,Cytochrome P 450 Superfamily,Enzyme, Cytochrome P-450,Enzyme, P-450,Enzyme, P450,Enzymes, Cytochrome P-450,Enzymes, P-450,Enzymes, P450,Monooxygenase, Cytochrome P-450,Monooxygenase, Cytochrome P-450-Dependent,P 450 Enzyme,P 450 Enzymes,P-450 Enzyme, Cytochrome,P-450 Enzymes, Cytochrome,Superfamily, CYP450,Superfamily, Cytochrome P-450,Superfamily, Cytochrome P450
D004364 Pharmaceutical Preparations Drugs intended for human or veterinary use, presented in their finished dosage form. Included here are materials used in the preparation and/or formulation of the finished dosage form. Drug,Drugs,Pharmaceutical,Pharmaceutical Preparation,Pharmaceutical Product,Pharmaceutic Preparations,Pharmaceutical Products,Pharmaceuticals,Preparations, Pharmaceutical,Preparation, Pharmaceutical,Preparations, Pharmaceutic,Product, Pharmaceutical,Products, Pharmaceutical
D005260 Female Females
D006207 Half-Life The time it takes for a substance (drug, radioactive nuclide, or other) to lose half of its pharmacologic, physiologic, or radiologic activity. Halflife,Half Life,Half-Lifes,Halflifes
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D006899 Mixed Function Oxygenases Widely distributed enzymes that carry out oxidation-reduction reactions in which one atom of the oxygen molecule is incorporated into the organic substrate; the other oxygen atom is reduced and combined with hydrogen ions to form water. They are also known as monooxygenases or hydroxylases. These reactions require two substrates as reductants for each of the two oxygen atoms. There are different classes of monooxygenases depending on the type of hydrogen-providing cosubstrate (COENZYMES) required in the mixed-function oxidation. Hydroxylase,Hydroxylases,Mixed Function Oxidase,Mixed Function Oxygenase,Monooxygenase,Monooxygenases,Mixed Function Oxidases,Function Oxidase, Mixed,Function Oxygenase, Mixed,Oxidase, Mixed Function,Oxidases, Mixed Function,Oxygenase, Mixed Function,Oxygenases, Mixed Function

Related Publications

T H Dickinson, and J M Egan, and D R Abernethy
Effects of primaquine on hepatic microsomal haemoproteins and drug oxidation.
December 1986, Toxicology,
T H Dickinson, and J M Egan, and D R Abernethy
Effects of isoniazid on hepatic drug oxidation and N-acetylation capacities in rats.
June 1992, Die Pharmazie,
T H Dickinson, and J M Egan, and D R Abernethy
Hepatic drug acetylation and oxidation: effects of aging in man.
July 1977, British medical journal,
T H Dickinson, and J M Egan, and D R Abernethy
Hepatic microsomes and drug oxidation.
June 1968, Science (New York, N.Y.),
T H Dickinson, and J M Egan, and D R Abernethy
The effects of oral nifedipine on hepatic blood flow in humans.
October 1991, Clinical pharmacology and therapeutics,
T H Dickinson, and J M Egan, and D R Abernethy
Genetic factors in hepatic drug oxidation.
January 1976, Progress in liver diseases,
T H Dickinson, and J M Egan, and D R Abernethy
The effect of total parenteral nutrition on hepatic drug oxidation.
January 1987, JPEN. Journal of parenteral and enteral nutrition,
T H Dickinson, and J M Egan, and D R Abernethy
Impairment of hepatic drug oxidation by propoxyphene.
August 1982, Annals of internal medicine,
T H Dickinson, and J M Egan, and D R Abernethy
Nifedipine-propranolol interaction: dependence of cardiovascular effects on plasma drug concentrations.
August 1987, Journal of cardiovascular pharmacology,
T H Dickinson, and J M Egan, and D R Abernethy
Hepatic venoconstrictor effects of isoproterenol and nifedipine in anesthetized cats.
June 1984, Canadian journal of physiology and pharmacology,
Copied contents to your clipboard!