一项 NK₁ 受体占有率的药代动力学 PET 研究。

A pharmacokinetic PET study of NK₁ receptor occupancy.

机构信息

GlaxoSmithKline, Clinical Pharmacology Modeling & Simulation, Stockley Park, UK.

出版信息

Eur J Nucl Med Mol Imaging. 2012 Feb;39(2):226-35. doi: 10.1007/s00259-011-1954-2. Epub 2011 Oct 13.

DOI:10.1007/s00259-011-1954-2

PMID:21993526

Abstract

PURPOSE

There is growing recognition of the importance of integrating drug occupancy data acquired by positron emission tomography (PET) with the plasma pharmacokinetics of the drug, in order to establish proper dose selection in subsequent clinical trials. Here we present a study in human subjects of the occupancy of NK(1) receptors achieved following different doses of casopitant, a selective NK(1) antagonist.

METHODS

Two PET scans were carried out in each of eight human subjects, with the PET radioligand [(11)C]GR205171, a high-affinity and selective NK(1) receptor antagonist. The first scan was under baseline conditions and the second 24 h after a single oral dose of casopitant (2-120 mg). Arterial blood was collected throughout the scans for determination of plasma and whole blood input functions. Venous blood samples were taken prior to and following oral dosing up to 24 h for a pharmacokinetic study of casopitant concentration in plasma.

RESULTS

It was first necessary to establish a suitable kinetic model for the estimation of [(11)C]GR205171 NK(1) receptor binding parameters in human brain tissue. A three-tissue compartment model with simultaneous estimation of multiple regions sharing common variables across regions was found suitable for the analysis. Because of the injected cold mass of the tracer and the high affinity of [(11)C]GR205171 a correction for tracer occupancy effects was also incorporated into the analysis. We then developed a pharmacokinetic-receptor occupancy (PK-RO) model of the relationship between casopitant plasma concentrations and receptor binding, using a population approach.

CONCLUSION

These results indicate that after chronic dosing, casopitant can achieve a degree of NK(1) receptor occupancy higher than those that have previously been tested in studies of clinical depression.

摘要

目的

越来越多的人认识到，将正电子发射断层扫描（PET）获得的药物占有率数据与药物的血浆药代动力学结合起来，对于确定随后临床试验中的适当剂量选择非常重要。在这里，我们在人类受试者中研究了不同剂量卡索匹坦对 NK（1）受体的占有率，卡索匹坦是一种选择性 NK（1）拮抗剂。

方法

在 8 名人类受试者中，每 2 人进行 2 次 PET 扫描，使用的放射性配体为 [11C]GR205171，是一种高亲和力和选择性的 NK（1）受体拮抗剂。第一次扫描是在基线条件下进行的，第二次是在单次口服卡索匹坦（2-120mg）后 24 小时进行的。在整个扫描过程中采集动脉血，用于测定血浆和全血的输入函数。在口服给药前和给药后 24 小时内采集静脉血样，用于测定血浆中卡索匹坦浓度的药代动力学研究。

结果

首先需要建立一个合适的动力学模型，以估计人类脑组织中 [11C]GR205171 NK（1）受体结合参数。发现三组织隔室模型适合于分析，该模型同时估计多个区域的参数，这些区域的参数在区域之间是共享的。由于示踪剂的冷质量和 [11C]GR205171 的高亲和力，分析中还包括了示踪剂占有率效应的校正。然后，我们使用群体方法，开发了卡索匹坦血浆浓度与受体结合之间的药代动力学-受体占有率（PK-RO）模型。

结论

这些结果表明，在慢性给药后，卡索匹坦可以达到比以前在抑郁症研究中测试的更高的 NK（1）受体占有率程度。

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一项 NK₁ 受体占有率的药代动力学 PET 研究。

A pharmacokinetic PET study of NK₁ receptor occupancy.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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