Agent-Directed Tracing of Multi-Scale Drug Disposition Events within Normal and Diseased In Silico Livers

International journal of agent technologies and systems Pub Date : 2010-07-01 DOI:10.4018/jats.2010070101

Sean H. J. Kim, Sunwoo Park, Glen E. P. Ropella, C. Hunt

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引用次数: 11

Abstract

Cirrhosis, a chronic liver disease, alters hepatic drug disposition; however, little is known about micro-mechanisms underpinning disease progression and how they contribute to changes in liver disposition properties. In this article, the authors present multilevel, agent-based and agent-directed In Silico Livers ISLs to probe plausible micro-mechanistic details for a cationic drug, diltiazem, in two different types of cirrhotic rat livers. Starting with ISLs that validated against diltiazem disposition data from normal livers, the authors systematically transformed ISL characteristics to achieve validation against perfusion outflow profiles from the two types of diseased livers. In this regard, the authors developed and implemented multilevel methods to trace each object representing diltiazem during simulated perfusion experiments. This enabled gaining heretofore-unavailable insight into plausible micro-mechanistic details from diltiazem's perspective in normal and diseased livers. The authors posit that the presented ISL micro-mechanistic details may have disease caused counterparts during disposition.

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多尺度药物处置事件在正常和患病硅肝中的代理定向追踪

肝硬化是一种慢性肝病，会改变肝脏的药物配置;然而，关于疾病进展的微观机制以及它们如何影响肝脏处置特性的变化，我们知之甚少。在这篇文章中，作者提出了多层次、基于药物和靶向药物的硅肝isl，以探索阳离子药物地尔硫卓在两种不同类型的肝硬化大鼠肝脏中的微观机制细节。从对正常肝脏的地尔硫卓配置数据进行验证的ISL开始，作者系统地转换了ISL特征，以实现对两种病变肝脏灌注流出谱的验证。在这方面，作者开发并实施了多层次的方法来追踪在模拟灌注实验中代表地尔硫卓的每个对象。这使得从地尔硫卓在正常和患病肝脏中的作用角度获得了迄今为止无法获得的关于合理的微观机制细节的见解。作者认为，所提出的ISL微观机制细节可能在处置过程中有疾病引起的对应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of agent technologies and systems

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