Further Evidence of Extensive Pulmonary First‐pass Ester Hydrolysis after Airways Administration in Rats

Pharmacy and Pharmacology Communications Pub Date : 2000-10-01 DOI:10.1211/146080800128735485

P. Dickinson, P. Seville, G. Taylor

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引用次数: 1

Abstract

The aim of this study was to synthesize an ester with low lipophilicity, and to use this ester to further investigate pre-absorptive pulmonary first-pass metabolism. Hexanoic acid phenethyl ester was synthesized by reacting 2-phenylethanol with hexanoyl chloride. Pre-absorptive first-pass metabolism was assessed by comparing the areas under the blood concentration-time curves after intra-arterial administration of the hexanoic acid phenethyl ester with those after intratracheal instillation. Hexanoic acid phenethyl ester experienced extensive first-pass metabolism (53% of the absorbed dose) before or during absorption. This and earlier data suggests that the extent of this first-pass extraction is dependent on the physicochemical properties of the ester and in particular whether a compound experiences diffusion-limited absorption. Pre-absorptive pulmonary first-pass metabolism of compounds whose absorption is diffusion-rate limited may be extensive even when pulmonary enzyme expression is low. This has consequences for the systemic delivery of drugs and in particular esters via the lungs.

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进一步的证据表明，大鼠气道给药后广泛的肺一过酯水解

本研究的目的是合成一种低亲脂性酯，并利用该酯进一步研究吸收前肺首过代谢。以2-苯乙醇和己醇氯为原料，合成了己酸苯乙酯。通过比较动脉内注射己酸苯乙酯和气管内注射己酸苯乙酯后的血药浓度-时间曲线下面积来评估吸收前的首过代谢。己酸苯乙酯在吸收前或吸收过程中经历了广泛的首过代谢(吸收剂量的53%)。这和早期的数据表明，第一次萃取的程度取决于酯的物理化学性质，特别是化合物是否经历扩散限制吸收。即使在肺酶表达较低的情况下，吸收扩散速率有限的化合物的预吸收肺第一次代谢也可能是广泛的。这对药物特别是酯类药物经肺的全身输送有影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Pharmacy and Pharmacology Communications

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