对尼古丁急性效应的明显耐受性部分源于分布动力学。

Apparent tolerance to the acute effect of nicotine results in part from distribution kinetics.

作者信息

Porchet H C, Benowitz N L, Sheiner L B, Copeland J R

机构信息

Department of Medicine, School of Medicine, San Francisco General Hospital Medical Center, University of California 94143.

出版信息

J Clin Invest. 1987 Nov;80(5):1466-71. doi: 10.1172/JCI113227.

DOI:10.1172/JCI113227

PMID:3680508

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC442405/

Abstract

Persons exposed to nicotine develop tolerance to many of its effects. When heart rate and forearm venous blood concentration are plotted against time after intravenous administration of nicotine, a greater increase in heart rate is seen for a given nicotine concentration during the rising phase of nicotine concentrations than during the decreasing phase. This could be due to acute tolerance or to more rapid distribution of drug to effect site (brain) than to venous blood. To distinguish between these possibilities, six rabbits were given nicotine intravenously. Blood samples were taken from the internal jugular vein (reflecting brain concentration), and the femoral vein and artery. Brain concentrations peaked before femoral venous concentrations. Seven men received intravenous infusions of nicotine. Peripheral venous blood concentrations and cardiovascular responses were measured. Heart rate peaked before venous concentrations. A physiological kinetic model, fit to the rabbit data, was scaled to humans and used to predict "brain" concentrations in them. Heart rate and predicted brain concentrations peaked simultaneously. We conclude that the rapid development of tolerance to the cardioaccelerating effect of nicotine can be attributed, at least in part, to its distribution kinetics.

摘要

接触尼古丁的人会对其许多作用产生耐受性。静脉注射尼古丁后，若将心率和前臂静脉血浓度随时间作图，在尼古丁浓度上升阶段，对于给定的尼古丁浓度，心率的增加幅度比在下降阶段更大。这可能是由于急性耐受性，或者是药物向作用部位（大脑）的分布比向静脉血的分布更快。为了区分这些可能性，对六只兔子进行了静脉注射尼古丁。从颈内静脉（反映大脑浓度）、股静脉和动脉采集血样。大脑浓度在股静脉浓度之前达到峰值。七名男性接受了尼古丁静脉输注。测量外周静脉血浓度和心血管反应。心率在静脉浓度之前达到峰值。一个适合兔子数据的生理动力学模型被按比例换算到人类，并用于预测人类的“大脑”浓度。心率和预测的大脑浓度同时达到峰值。我们得出结论，对尼古丁心脏加速作用耐受性的快速发展至少部分可归因于其分布动力学。

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