P A Dickinson1, G Taylor. 1. Welsh School of Pharmacy, University of Wales, Cardiff, U.K.
Abstract
PURPOSE: To study (A) the effect of the administration route (i.v. and i.t.) on pre- and post-absorptive metabolism of phenol and 1-naphthol by the lung and (B) pulmonary extraction of phenol at steady-state. METHODS: Phenols were administered intra-arterially, intravenously and intratracheally and the pre- and post-absorptive metabolism assessed by comparing the AUCs in arterial blood. Phenol was infused to steady-state and the pulmonary extraction assessed by measuring jugular vein and carotid artery blood concentrations. RESULTS: In contrast to previously published data (e.g., Mistry and Houston, Drug Metab.Dispos.l3:740-745 (1985)) we could not detect pulmonary first-pass metabolism of the phenols; reasons for this disparity are discussed. An apparent negative pulmonary extraction of phenol at steady-state was observed, probably as a consequence of extraction by organs which are in series, and not parallel, with the lungs (e.g. liver, kidneys and GIT). CONCLUSIONS: (A) Phenol and 1-naphthol do not undergo pulmonary first-pass metabolism. (B) Traditional methods of assessing organ extraction and clearance at steady-state cannot be utilised when metabolising organs are in series.
PURPOSE: To study (A) the effect of the administration route (i.v. and i.t.) on pre- and post-absorptive metabolism of phenol and 1-naphthol by the lung and (B) pulmonary extraction of phenol at steady-state. METHODS:Phenols were administered intra-arterially, intravenously and intratracheally and the pre- and post-absorptive metabolism assessed by comparing the AUCs in arterial blood. Phenol was infused to steady-state and the pulmonary extraction assessed by measuring jugular vein and carotid artery blood concentrations. RESULTS: In contrast to previously published data (e.g., Mistry and Houston, Drug Metab.Dispos.l3:740-745 (1985)) we could not detect pulmonary first-pass metabolism of the phenols; reasons for this disparity are discussed. An apparent negative pulmonary extraction of phenol at steady-state was observed, probably as a consequence of extraction by organs which are in series, and not parallel, with the lungs (e.g. liver, kidneys and GIT). CONCLUSIONS: (A) Phenol and 1-naphthol do not undergo pulmonary first-pass metabolism. (B) Traditional methods of assessing organ extraction and clearance at steady-state cannot be utilised when metabolising organs are in series.