Expert Opin Drug Metab Toxicol. 2012 Feb;8(2):161-72. doi: 10.1517/17425255.2012.652084. Epub 2012 Jan 17.
The last two decades have brought many fundamental changes to the drug development process. One such change is the importance of preclinical pharmacokinetics, which has become an essential part of early drug discovery. Furthermore, bioanalytical methods have become more sensitive and the identification and quantitation of metabolites can now be carried out on limited amount of biological material. There has also been a change in regulatory expectations, which are now particularly focused on the safety of human metabolites.
The focus of this paper is on some 'traditional' in vivo ADME studies: excretion balance, metabolic profile and WBA in the toxicological species. These studies, performed with radiolabeled material, have a long history: and are a regular presence in submission dossiers. This paper reviews their value in the perspective of the contemporary drug development process.
These experiments may sometimes still be relevant to explain toxicological findings or for other special purposes but should not be considered required pieces of the registration dossiers. An appropriate investigation of samples coming from safety evaluation and human Phase I studies and the knowledge generated during the lead optimization phase provide, in most instances, all the DMPK information needed to take decisions in the drug development process.
过去二十年给药物开发过程带来了许多根本性的变化。其中一个变化是临床前药代动力学的重要性,它已成为早期药物发现的重要组成部分。此外,生物分析方法变得更加灵敏,现在可以在有限的生物材料上进行代谢物的鉴定和定量。监管期望也发生了变化,现在特别关注人类代谢物的安全性。
本文的重点是一些“传统”的体内 ADME 研究:毒理学物种中的排泄平衡、代谢谱和 WBA。这些使用放射性标记物进行的研究有着悠久的历史:并且在提交文件中经常出现。本文从当代药物开发过程的角度回顾了它们的价值。
这些实验有时可能仍然与解释毒理学发现或其他特殊目的有关,但不应被视为注册文件的必需部分。适当调查来自安全性评估和人体 I 期研究的样本以及在先导优化阶段生成的知识,在大多数情况下,提供了药物开发过程中做出决策所需的所有 DMPK 信息。
