给药剂量和途径对甲硝唑及其主要代谢产物处置的影响。

Influence of dose and route of administration on disposition of metronidazole and its major metabolites.

作者信息

Loft S, Døssing M, Poulsen H E, Sonne J, Olesen K L, Simonsen K, Andreasen P B

出版信息

Eur J Clin Pharmacol. 1986;30(4):467-73. doi: 10.1007/BF00607962.

Abstract

The influence of dose and route of administration on the kinetics of metronidazole and its major metabolites has been investigated in 8 healthy volunteers given 0.5 and 2.0 g i.v. and p.o. Metronidazole elimination kinetics from plasma could be described by an open two-compartment model. The systemic oral bioavailability of both doses was approximately 1. The total systemic clearance of the intravenous 2.0 g dose was 9% lower than that of the 0.5 g dose (p less than 0.05). There were no significant dose-related differences in volume or rate of distribution. The elimination half-life was similar after the four treatments with metronidazole. The major elimination pathways, renal excretion and hepatic oxidation and glucuronidation, accounted for more than 2/3 of the total systemic clearance. Clearance both by hepatic oxidative metabolism and renal excretion was significantly lower after 2.0 than after 0.5 g i.v., whereas there was no significant difference after the oral doses. The results indicate that a high therapeutic dose of metronidazole may be eliminated at a reduced rate, but this is probably not of clinical importance. No single saturable elimination pathway was identified.

摘要

在8名健康志愿者中，研究了给药剂量和途径对甲硝唑及其主要代谢产物动力学的影响，志愿者分别静脉注射和口服0.5克及2.0克甲硝唑。血浆中甲硝唑的消除动力学可用开放二室模型描述。两种剂量的全身口服生物利用度约为1。静脉注射2.0克剂量的总全身清除率比0.5克剂量低9%（p<0.05）。分布容积和分布速率无显著剂量相关性差异。甲硝唑四种治疗后的消除半衰期相似。主要消除途径，即肾排泄、肝氧化和葡萄糖醛酸化，占总全身清除率的2/3以上。静脉注射2.0克后，肝氧化代谢和肾排泄的清除率均显著低于0.5克，而口服剂量后无显著差异。结果表明，高治疗剂量的甲硝唑可能以较低速率消除，但这可能不具有临床重要性。未发现单一的饱和消除途径。

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给药剂量和途径对甲硝唑及其主要代谢产物处置的影响。

Influence of dose and route of administration on disposition of metronidazole and its major metabolites.

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