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丙泊酚的首过肺摄取及肺清除率:采用循环式吲哚菁绿药代动力学模型进行评估

First-pass lung uptake and pulmonary clearance of propofol: assessment with a recirculatory indocyanine green pharmacokinetic model.

作者信息

Kuipers J A, Boer F, Olieman W, Burm A G, Bovill J G

机构信息

Department of Anesthesiology, Leiden University Medical Center, The Netherlands.

出版信息

Anesthesiology. 1999 Dec;91(6):1780-7. doi: 10.1097/00000542-199912000-00032.

DOI:10.1097/00000542-199912000-00032
PMID:10598622
Abstract

BACKGROUND

The principal site for elimination of propofol is the liver. The clearance of propofol exceeds hepatic blood flow; therefore, extrahepatic clearance is thought to contribute to its elimination. This study examined the pulmonary kinetics of propofol using part of an indocyanine green (ICG) recirculatory model.

METHODS

Ten sheep, immobilized in a hammock, received injections of propofol (4 mg/kg) and ICG (25 mg) via two semipermanent catheters in the right internal jugular vein. Arterial blood samples were obtained from the carotid artery. The ICG injection was given for measurement of intravascular recirculatory parameters and determination of differences in propofol and ICG concentration-time profiles. No other medication was given during the experiment, and the sheep were not intubated. The arterial concentration-time curves of ICG were analyzed with a recirculatory model. The pulmonary uptake and elimination of propofol was analyzed with the central part of that model extended with a pulmonary tissue compartment allowing elimination from that compartment.

RESULTS

During the experiment, cardiac output was 3.90+/-0.72 l/min (mean +/- SD). The blood volume in heart and lungs, measured with ICG, was 0.66+/-0.07 l. A pulmonary tissue compartment of 0.47+/-0.16 l was found for propofol. The pulmonary first-pass elimination of propofol was 1.14+/-0.23 l/min. Thirty percent of the dose was eliminated during the first pass through the lungs.

CONCLUSIONS

Recirculatory modeling of ICG allows modeling of the first-pass pulmonary kinetics of propofol concurrently. Propofol undergoes extensive uptake and first-pass elimination in the lungs.

摘要

背景

丙泊酚的主要消除部位是肝脏。丙泊酚的清除率超过肝血流量;因此,肝外清除被认为有助于其消除。本研究使用部分吲哚菁绿(ICG)再循环模型研究了丙泊酚的肺动力学。

方法

10只固定在吊床上的绵羊通过右颈内静脉的两根半永久性导管接受丙泊酚(4mg/kg)和ICG(25mg)注射。从颈动脉采集动脉血样。给予ICG注射以测量血管内再循环参数,并确定丙泊酚和ICG浓度-时间曲线的差异。实验期间未给予其他药物,绵羊未插管。用再循环模型分析ICG的动脉浓度-时间曲线。用该模型的中心部分扩展一个肺组织隔室来分析丙泊酚的肺摄取和消除,该隔室允许从该隔室消除。

结果

实验期间,心输出量为3.90±0.72l/min(平均值±标准差)。用ICG测量的心和肺的血容量为0.66±0.07l。丙泊酚的肺组织隔室为0.47±0.16l。丙泊酚的肺首过消除为1.14±0.23l/min。30%的剂量在首次通过肺时被消除。

结论

ICG的再循环模型允许同时对丙泊酚的首过肺动力学进行建模。丙泊酚在肺中经历广泛的摄取和首过消除。

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