A. Kubli scite author profile

A. Kubli

4Publications

51Citation Statements Received

23Citation Statements Given

How they've been cited

181

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Affiliations

University of Geneva, University of Bern

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The genetic controlof bufuralol metabolisminman

Dayer

Balant

Courvoisier

et al. 1982

European Journal of Drug Metabolism and Pharmacokinetics

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Bufuralol (Ro 3 - 4787, Angium) is a non selective beta-adrenoceptor blocking drug with some degree of sympathomimetic action and a longer duration of action than propranolol. Plasma concentrations of bufuralol and 1'-hydroxybufuralol, its main blood derivative which shows similar beta-adrenoceptor blocking properties, were determined in healthy volunteers after a 60 mg oral and a 20 mg intravenous dose. Peak plasma concentrations were higher for the parent drug but due to a longer elimination half-life, the metabolite concentrations became higher after a few hours (bufuralol t 1/2 = 2.7 +/- 0.9 h, metabolite t 1/2 = 6.1 +/- 1.5h). The bioavailability of the tablet tested was 46 +/- 15%. The occurrence of side-effects in a subject with abnormal pharmacokinetics of the drug in this study and in a previous study with this drug suggested the possibility of a pharmacogenetic anomaly. Determination of the plasma metabolic ratio in the family of this subject and in a larger population confirmed that aliphatic hydroxylation of bufuralol is under polymorphic control. Phenotyping of our volunteers with debrisoquine showed the present pharmacogenetic anomaly to be the same as the one reported for debrisoquine alicyclic hydroxylation. The occurrence of side-effects in poor metabolizers as seen with bufuralol illustrates the clinical relevance of the hydroxylation polymorphism. In Switzerland the frequency of poor metabolizers is about 9% as previously reported for caucasian British subjects.

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Role of oxidation polymorphism on blood and urine concentrations of amitriptyline and its metabolites in man

Schulz

Dayer

et al. 1982

Arch. F. Psychiatr. U. Z. Neur.

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We have measured the metabolites (demethylated and hydroxylated) of amitriptyline in a group of seven normal volunteers. They were phenotyped as extensive or poor metabolizers using debrisoquine and bufuralol. The results demonstrate that the oxidative metabolism (aliphatic hydroxylation) of amitriptyline is under the same genetic control as that of debrisoquine and bufuralol. However, phenotypic polymorphism cannot be used to predict amitriptyline blood concentration after a single oral dose, since the principal metabolic pathway of amitriptyline is demethylation and not aliphatic hydroxylation.

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Defective hydroxylation of bufuralol associated with side‐effects of the drug in poor metabolisers [letter]

Dayer¹,

Kubli²,

Küpfer³

et al. 1982

Brit J Clinical Pharma

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Elimination and pharmacological effects following single oral doses of 50 and 75 mg of amitriptyline in man

Schulz

Balant-Gorgia

Kubli

et al. 1983

Arch Psychiatr Nervenkr

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In a companion paper we described the disposition of a 75 mg single dose of amitriptyline in normal volunteers who were phenotyped as extensive or poor metabolizers of debrisoquine and bufuralol, and had a four-fold range in the oral clearance of the antidepressant, 50 mg of amitriptyline was also administered to the same volunteers. This paper compares the results after both doses and suggests that the disposition of amitriptyline is linear even in subjects with a low oral clearance. There was no relation between the pharmacokinetic data and the intensity of sedation or of psychomotor impairment.

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A. Kubli

The genetic controlof bufuralol metabolisminman

Role of oxidation polymorphism on blood and urine concentrations of amitriptyline and its metabolites in man

Defective hydroxylation of bufuralol associated with side‐effects of the drug in poor metabolisers [letter]

Elimination and pharmacological effects following single oral doses of 50 and 75 mg of amitriptyline in man

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