醛糖还原酶抑制剂ALO1567在人体中的代谢。
Metabolism of the aldose reductase inhibitor ALO1567 in man.
作者信息
Park Y H, Hudson J E, Barker R C, York B M, Brazzell R K
机构信息
Research and Development Alcon Laboratories, Inc., Forth Worth, Texas 76134.
出版信息
Br J Clin Pharmacol. 1991 Aug;32(2):221-7. doi: 10.1111/j.1365-2125.1991.tb03885.x.
Abstract
- The metabolism of the aldose reductase inhibitor, ALO1567, was studied in man. The major biotransformation pathway was aromatic hydroxylation followed by glucuronide conjugation. 2. Hydroxylation occurred at several positions on the fluorene ring. The major metabolite was identified as the 7-hydroxy analogue of ALO1567 and three minor metabolites were characterized as positional isomers of the 7-hydroxy metabolite. 3. Oxidative defluorination and metabolism on the hydantoin ring were also indicated as minor pathways. 4. The capacity of normal subjects to oxidize ALO1567 was indicated by the urinary ratio of the parent drug to the 7-hydroxy metabolite after daily oral administration of 100 mg and 200 mg of ALO1567. Most subjects having higher ALO1567 plasma concentrations showed higher ratios.
摘要
- 对醛糖还原酶抑制剂ALO1567在人体中的代谢情况进行了研究。主要生物转化途径为芳环羟基化,随后进行葡萄糖醛酸结合反应。2. 芴环上的几个位置发生了羟基化。主要代谢产物被鉴定为ALO1567的7-羟基类似物,三种次要代谢产物被表征为7-羟基代谢产物的位置异构体。3. 氧化脱氟和乙内酰脲环上的代谢也被指出是次要途径。4. 正常受试者氧化ALO1567的能力通过每日口服100 mg和200 mg ALO1567后母体药物与7-羟基代谢产物的尿排泄比来表示。大多数血浆ALO1567浓度较高的受试者该比值也较高。
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