State-of-the-art in high throughput organ-on-chip for biotechnology and pharmaceuticals.

IF 1.8 Q3 OBSTETRICS & GYNECOLOGY Clinical and Experimental Reproductive Medicine-CERM Pub Date : 2024-09-20 DOI:10.5653/cerm.2024.06954

Suk-Heung Song, Sehoon Jeong

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Abstract

Modern drug discovery is driven by high demand in the pharmaceutical industry to test growing libraries of compounds against potential targets. High-throughput screening (HTS) is characterized by fully automated experimentation that leverages robotic liquid handling systems, analytical techniques, and advanced computing and statistics, including the recent integration of artificial intelligence. To align with this trend, it is crucial to develop and implement new HTS platforms that offer improved predictivity and physiological relevance. In recent years, microphysiological systems, commonly known as organ-on-chip (OoC) systems, have progressed from a theoretical concept to a powerful alternative to conventional in vitro and animal models. High-throughput OoC (HT-OoC) systems could represent the disruptive technology sought by pharmaceutical companies to address their enormous research and development (R&D) expenses. In this study, we provide a brief overview of commercial products utilizing modern HT-OoC systems in drug discovery and development. Additionally, we discuss recent trends in R&D aimed at industrialization.

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用于生物技术和制药的高通量片上器官的最新技术。

现代药物发现的驱动力来自于制药业对针对潜在靶点测试不断增长的化合物库的高需求。高通量筛选（HTS）的特点是利用机器人液体处理系统、分析技术以及先进的计算和统计技术（包括最近整合的人工智能）进行全自动实验。为顺应这一趋势，开发和实施新的高通量筛选平台至关重要，这些平台可提供更好的预测性和生理相关性。近年来，微生理系统（通常称为片上器官（OoC）系统）已从理论概念发展成为传统体外和动物模型的有力替代品。高通量 OoC（HT-OoC）系统可能是制药公司为解决其巨额研发（R&D）费用而寻求的颠覆性技术。在本研究中，我们简要介绍了利用现代 HT-OoC 系统进行药物发现和开发的商业产品。此外，我们还讨论了旨在实现产业化的最新研发趋势。

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Clinical and Experimental Reproductive Medicine-CERM Multiple-

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3.30

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