Department of Biomedical Engineering, Vanderbilt University, Nashville, TN 37235-1807, USA.
IEEE Trans Biomed Eng. 2013 Mar;60(3):682-90. doi: 10.1109/TBME.2013.2244891. Epub 2013 Feb 1.
The sophistication and success of recently reported microfabricated organs-on-chips and human organ constructs have made it possible to design scaled and interconnected organ systems that may significantly augment the current drug development pipeline and lead to advances in systems biology. Physiologically realistic live microHuman (μHu) and milliHuman (mHu) systems operating for weeks to months present exciting and important engineering challenges such as determining the appropriate size for each organ to ensure appropriate relative organ functional activity, achieving appropriate cell density, providing the requisite universal perfusion media, sensing the breadth of physiological responses, and maintaining stable control of the entire system, while maintaining fluid scaling that consists of ~5 mL for the mHu and ~5 μL for the μHu. We believe that successful mHu and μHu systems for drug development and systems biology will require low-volume microdevices that support chemical signaling, microfabricated pumps, valves and microformulators, automated optical microscopy, electrochemical sensors for rapid metabolic assessment, ion mobility-mass spectrometry for real-time molecular analysis, advanced bioinformatics, and machine learning algorithms for automated model inference and integrated electronic control. Toward this goal, we are building functional prototype components and are working toward top-down system integration.
最近报道的微制造器官芯片和人体器官构建体的复杂性和成功使得设计规模化和互联的器官系统成为可能,这可能会极大地增强当前的药物开发管道,并推动系统生物学的发展。生理上逼真的活体微人类 (μHu) 和毫微人类 (mHu) 系统能够运行数周到数月,这带来了令人兴奋和重要的工程挑战,例如确定每个器官的适当尺寸,以确保适当的相对器官功能活动,实现适当的细胞密度,提供必要的通用灌注介质,感知广泛的生理反应,并保持整个系统的稳定控制,同时保持流体缩放,其中 mHu 约为 5 毫升,μHu 约为 5 微升。我们相信,成功的用于药物开发和系统生物学的 mHu 和 μHu 系统将需要支持化学信号传递的小体积微器件、微制造的泵、阀和微成型器、自动化光学显微镜、用于快速代谢评估的电化学传感器、用于实时分子分析的离子迁移-质谱、先进的生物信息学和机器学习算法,用于自动模型推断和集成电子控制。为此,我们正在构建功能原型组件,并致力于自上而下的系统集成。