将药效学从体外和临床前动物研究外推至人体。

Scaling pharmacodynamics from in vitro and preclinical animal studies to humans.

作者信息

Mager Donald E, Woo Sukyung, Jusko William J

机构信息

Department of Pharmaceutical Sciences, University at Buffalo, New York 14260, USA.

出版信息

Drug Metab Pharmacokinet. 2009;24(1):16-24. doi: 10.2133/dmpk.24.16.

DOI:10.2133/dmpk.24.16

PMID:19252333

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3727168/

Abstract

An important feature of mechanism-based pharmacokinetic/pharmacodynamic (PK/PD) models is the identification of drug- and system-specific factors that determine the intensity and time-course of pharmacological effects. This provides an opportunity to integrate information obtained from in vitro bioassays and preclinical pharmacological studies in animals to anticipate the clinical and adverse responses to drugs in humans. The fact that contemporary PK/PD modeling continues to evolve and seeks to emulate systems level properties should provide enhanced capabilities to scale-up pharmacodynamic data. Critical steps in drug discovery and development, such as lead compound and first in human dose selection, may become more efficient with the implementation and further refinement of translational PK/PD modeling. In this review, we highlight fundamental principles in pharmacodynamics and the basic expectations for in vitro bioassays and traditional allometric scaling in PK/PD modeling. Discussion of PK/PD modeling efforts for recombinant human erythropoietin is also included as a case study showing the potential for advanced systems analysis to facilitate extrapolations and improve understanding of inter-species differences in drug responses.

摘要

基于机制的药代动力学/药效学（PK/PD）模型的一个重要特征是识别决定药理作用强度和时间进程的药物特异性和系统特异性因素。这为整合从体外生物测定和动物临床前药理研究中获得的信息提供了机会，从而预测人类对药物的临床和不良反应。当代PK/PD建模不断发展并试图模拟系统水平特性这一事实，应能增强放大药效学数据的能力。药物发现和开发中的关键步骤，如先导化合物和首次人体剂量选择，随着转化PK/PD建模的实施和进一步完善可能会变得更高效。在本综述中，我们强调药效学的基本原理以及PK/PD建模中对体外生物测定和传统异速生长标度的基本期望。作为一个案例研究，还包括了重组人促红细胞生成素的PK/PD建模工作的讨论，展示了先进系统分析在促进外推和提高对药物反应种间差异理解方面的潜力。

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