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Microphysiological systems and low-cost microfluidic platform with analytics.

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    Area of Science:

    • Biotechnology and Biomedical Engineering
    • Toxicology and Pharmacology
    • Stem Cell Biology

    Background:

    • Current drug discovery and toxicology models lack human biological accuracy.
    • A multiorgan, functional, human in vitro system, or 'Body-on-a-Chip', offers significant advantages.
    • Advancement requires robust sources of human cells for in vitro culture.

    Purpose of the Study:

    • To detail progress in creating a human 'Body-on-a-Chip' system.
    • To identify key challenges in developing advanced in vitro models.
    • To showcase the potential of current cell culture technologies.

    Main Methods:

    • Development of individual organ models with specific cellular functions.
    • Utilizing primary and stem cells to create humanized organ models.
    • Focus on achieving full differentiation and maturation to adult phenotypes.

    Main Results:

    • Demonstrated high functionality across various cell types using current technology.
    • Highlighted the dependency on stem cells for mature human cell sources.
    • Showcased progress towards integrating multiple organ models.

    Conclusions:

    • The development of a multiorgan in vitro system is progressing.
    • Increased availability of functional human cells is crucial for system advancement.
    • This technology holds promise for accurately modeling human responses in real-time.