A Novel Milli-fluidic Liver Tissue Chip with Continuous Recirculation for Predictive Pharmacokinetics Applications.

IF 5 3区 医学 Q1 PHARMACOLOGY & PHARMACY
Shiny Amala Priya Rajan, Jason Sherfey, Shivam Ohri, Lauren Nichols, J Tyler Smith, Paarth Parekh, Eugene P Kadar, Frances Clark, Billy T George, Lauren Gregory, David Tess, James R Gosset, Jennifer Liras, Emily Geishecker, R Scott Obach, Murat Cirit
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Abstract

A crucial step in lead selection during drug development is accurate estimation and optimization of hepatic clearance using in vitro methods. However, current methods are limited by factors such as lack of physiological relevance, short culture/incubation times that are not consistent with drug exposure patterns in patients, use of drug absorbing materials, and evaporation during long-term incubation. To address these technological needs, we developed a novel milli-fluidic human liver tissue chip (LTC) that was designed with continuous media recirculation and optimized for hepatic cultures using human primary hepatocytes. Here, we characterized the LTC using a series of physiologically relevant metrics and test compounds to demonstrate that we could accurately predict the PK of both low- and high-clearance compounds. The non-biological characterization indicated that the cyclic olefin copolymer (COC)-based LTC exhibited negligible evaporation and minimal non-specific binding of drugs of varying ionic states and lipophilicity. Biologically, the LTC exhibited functional and polarized hepatic culture with sustained metabolic CYP activity for at least 15 days. This long-term culture was then used for drug clearance studies for low- and high-clearance compounds for at least 12 days, and clearance was estimated for a range of compounds with high in vitro-in vivo correlation (IVIVC). We also demonstrated that LTC can be induced by rifampicin, and the culture age had insignificant effect on depletion kinetic and predicted clearance value. Thus, we used advances in bioengineering to develop a novel purpose-built platform with high reproducibility and minimal variability to address unmet needs for PK applications.

Abstract Image

一种用于预测药代动力学应用的新型连续再循环微流体肝组织芯片。
药物开发过程中铅选择的一个关键步骤是使用体外方法准确估计和优化肝脏清除率。然而,目前的方法受到缺乏生理相关性、培养/孵育时间短(与患者的药物暴露模式不一致)、药物吸收材料的使用以及长期孵育过程中的蒸发等因素的限制。为了满足这些技术需求,我们开发了一种新型的微流体人类肝组织芯片(LTC),该芯片设计具有连续介质再循环,并针对使用人类原代肝细胞的肝培养进行了优化。在这里,我们使用一系列生理相关指标和测试化合物来表征LTC,以证明我们可以准确预测低清除率和高清除率化合物的PK。非生物学特性表明,基于环烯烃共聚物(COC)的LTC对不同离子状态和亲脂性的药物表现出可忽略的蒸发和最小的非特异性结合。在生物学上,LTC表现出功能性和极化的肝脏培养,具有至少15天的持续代谢CYP活性。然后将这种长期培养用于低清除率和高清除率化合物的药物清除研究至少12天,并对一系列具有高体外-体内相关性(IVIVC)的化合物进行清除率估计。我们还证明,LTC可以由利福平诱导,培养年龄对耗竭动力学和预测清除值的影响不大。因此,我们利用生物工程的进展开发了一种具有高再现性和最小可变性的新型专门构建的平台,以满足PK应用未满足的需求。
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来源期刊
AAPS Journal
AAPS Journal 医学-药学
CiteScore
7.80
自引率
4.40%
发文量
109
审稿时长
1 months
期刊介绍: The AAPS Journal, an official journal of the American Association of Pharmaceutical Scientists (AAPS), publishes novel and significant findings in the various areas of pharmaceutical sciences impacting human and veterinary therapeutics, including: · Drug Design and Discovery · Pharmaceutical Biotechnology · Biopharmaceutics, Formulation, and Drug Delivery · Metabolism and Transport · Pharmacokinetics, Pharmacodynamics, and Pharmacometrics · Translational Research · Clinical Evaluations and Therapeutic Outcomes · Regulatory Science We invite submissions under the following article types: · Original Research Articles · Reviews and Mini-reviews · White Papers, Commentaries, and Editorials · Meeting Reports · Brief/Technical Reports and Rapid Communications · Regulatory Notes · Tutorials · Protocols in the Pharmaceutical Sciences In addition, The AAPS Journal publishes themes, organized by guest editors, which are focused on particular areas of current interest to our field.
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