Pedro A. Redondo scite author profile

Pedro A. Redondo

4Publications

62Citation Statements Received

20Citation Statements Given

How they've been cited

110

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University of Leon

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Small intestinal sulphoxidation of Albendazole

et al. 1995

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1. The in vitro sulphoxidation of Albendazole (ABZ) by rat intestinal microsomes has been examined. The results revealed intestinal sulphoxidation of ABZ by intestinal microsomes in a NADPH-dependent enzymatic system. The kinetic constants for sulphoxidase activity were Vmax = 46 pmol/min/mg protein and Michaelis constant Km = 6.8 microM. 2. The possible effect of inducers (Arochlor 1254 and ABZ pretreatment) and inhibitors (erythromycin, methimazole, carbon monoxide and fenbendazole), was also studied. In rat pretreated with Arochlor 1254, Vmax was 52 pmol/min/mg protein, whereas oral administration of ABZ increased the intestinal sulphoxidation of the drug, Vmax being 103 pmol/min/mg protein. 3. Erythromycin did not change the enzymatic bioconversion of ABZ, but methimazole and carbon monoxide inhibited the enzyme activity by approximately 60 and 30% respectively. Fenbendazole (a structural analogue of ABZ) was a competitive inhibitor of the sulphoxidation process, characterized by a Ki or 69 microM. 4. These data demonstrate that the intestinal enzymes contributing to the initial sulphoxidation of ABZ may be similar to the hepatic enzymes involved in the biotransformation process by the P450 and FMO systems, a conclusion that needs to be further established.

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Influence of surfactants on oral bioavailability of albendazole based on the formation of the sulphoxide metabolites in rats

Redondo

Alvarez²,

García³

et al. 1998

Biopharm. Drug Dispos.

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The influence of two surfactants, sodium taurocholate (STC) and polysorbate 80 (P80), on the bioavailability of albendazole (ABZ), orally administered to rats, has been studied. To assess the effect of the surfactants, they were administered at critical micellar and supramicellar concentrations, 5 and 10 mM for STC and 0.0022 and 0.22% for P80, along with a subclinical dose of 5 mg kg−1 of ABZ. Doses of 5 and 10.6 mg kg−1 ABZ were also administered as controls. The results show an increase in the sulphoxide AUC values: 55% in the STC 5 mM and 88% in the STC 10 mM and P80 0.0022% treatments when compared to the control ABZ 5 mg kg−1 dose. MRT values also show longer‐lasting plasma albendazole sulphoxide concentration following these three treatments, particularly for the P80 0.0022% treatment. While there was no change in the apparent rate of formation of ABZSO, the amount of ABZSO formed was increased significantly by the addition of surfactants (STC 10 mM and P80 0.0022%). © 1998 John Wiley & Sons, Ltd.

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Management ofGalega officinalisL. and preliminary results on its potential for milk production improvement in sheep

González‐Andrés

Redondo²,

Pescador³

et al. 2004

New Zealand Journal of Agricultural Research

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Bioavailability of albendazole sulphoxide after netobimin administration in sheep: effects of fenbendazole coadministration.

Merino

Alvarez

Redondo

et al. 1999

Research in Veterinary Science

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Pedro A. Redondo

Small intestinal sulphoxidation of Albendazole

Influence of surfactants on oral bioavailability of albendazole based on the formation of the sulphoxide metabolites in rats

Management ofGalega officinalisL. and preliminary results on its potential for milk production improvement in sheep

Bioavailability of albendazole sulphoxide after netobimin administration in sheep: effects of fenbendazole coadministration.

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