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Disposition and Metabolic Profiling of the Penetration Enhancer Azone. I. In Vivo Studies: Urinary Profiles of Hamster, Rat, Monkey, and Man

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Abstract

Chain-labeled 14C-Azone was intravenously administered to hamster, monkey, and rat, to compare its metabolic profile with that obtained previously in humans after dermal application. Azone-derived radioactivity was excreted predominantly in the urine for both hamster and monkey, which is similar to the disposition in humans. Metabolic profiling in urine revealed extensive systemic metabolism to occur in all species studied. The main fraction of the metabolites was most polar in man, followed by rat, monkey, and hamster. Traces of the parent compound were detectable only in hamster urine. Although some of the polar major human metabolites were also present in rat urine, the animals were unsuitable for collecting metabolites of Azone observed in humans. In rats, complete cleavage of the dodecyl side chain was ruled out by administering Azone that had been labeled at two distinct positions of the molecule. Additionally, oral administration of Azone to rats resulted in the same metabolic profile as intravenous administration, indicating that gastrointestinal metabolism does not occur or is similar to systemic metabolism.

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Authors and Affiliations

  1. Groningen Centre for Drug Research, Bioanalysis and Toxicology Group, University of Groningen, A. Deusinglaan 2, 9713 AW, Groningen, The Netherlands

    Johann W. Wiechers, Ben F. H. Drenth, Frank A. W. Adolfsen, Lia Prins & Rokus A. de Zeeuw

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  1. Johann W. Wiechers
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  2. Ben F. H. Drenth
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  3. Frank A. W. Adolfsen
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  4. Lia Prins
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  5. Rokus A. de Zeeuw
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Wiechers, J.W., Drenth, B.F.H., Adolfsen, F.A.W. et al. Disposition and Metabolic Profiling of the Penetration Enhancer Azone. I. In Vivo Studies: Urinary Profiles of Hamster, Rat, Monkey, and Man. Pharm Res 7, 496–499 (1990). https://doi.org/10.1023/A:1015864632474

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