革新药物发现:基于微流控芯片的有机技术中不同设计和生物传感器集成的影响

Biosensors Pub Date : 2024-09-03 DOI:10.3390/bios14090425
Sheng Yuan, Huipu Yuan, David C. Hay, Huan Hu, Chaochen Wang
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引用次数: 0

摘要

传统的药物开发过程耗时长、成本高、失败率高。这促使制药行业寻求更高效的药物开发框架,推动了基于微流控技术的片上器官(OOC)的出现。与传统的动物实验不同,OOC 系统能更精确地模拟人体器官的微环境和生理反应,因此为生物医学研究,尤其是新药开发提供了一个经济高效的平台。此外,OOC 系统还能实现快速实时分析、高通量实验和自动化。这些优势在加强药物开发过程中显示出巨大的前景。OOC 系统的成功取决于对特定设计、制造技术和生物传感器的整合,以满足对综合多参数数据集的需求。本综述将重点介绍 OOC 系统的制造、设计、传感系统和应用,突出其设计和传感能力,以及目前面临的技术挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Revolutionizing Drug Discovery: The Impact of Distinct Designs and Biosensor Integration in Microfluidics-Based Organ-on-a-Chip Technology
Traditional drug development is a long and expensive process with high rates of failure. This has prompted the pharmaceutical industry to seek more efficient drug development frameworks, driving the emergence of organ-on-a-chip (OOC) based on microfluidic technologies. Unlike traditional animal experiments, OOC systems provide a more accurate simulation of human organ microenvironments and physiological responses, therefore offering a cost-effective and efficient platform for biomedical research, particularly in the development of new medicines. Additionally, OOC systems enable quick and real-time analysis, high-throughput experimentation, and automation. These advantages have shown significant promise in enhancing the drug development process. The success of an OOC system hinges on the integration of specific designs, manufacturing techniques, and biosensors to meet the need for integrated multiparameter datasets. This review focuses on the manufacturing, design, sensing systems, and applications of OOC systems, highlighting their design and sensing capabilities, as well as the technical challenges they currently face.
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