Organ-on-a-Chip technology represents a ground-breaking approach in biomedical engineering, aiming to replicate the physiological and functional characteristics of human organs on a miniature scale. These microfluidic devices are designed to mimic the complex microenvironment of organs, incorporating living cells arranged in a structure that mirrors the organ's architecture. Organ-on-a-chip platforms enable real-time monitoring and analysis of cellular responses to drugs, toxins, or other stimuli, providing a more accurate representation of human biology compared to traditional cell culture systems. The technology facilitates the study of organ-level interactions, making it a powerful tool for drug development, disease modelling, and personalized medicine. By simulating the dynamic conditions of organs in a controlled environment, organ-on-a-chip devices contribute to advancing our understanding of human physiology and pathology, offering a promising avenue for more effective drug testing and medical research.
Ephraim Suhir
Portland State University, United States
Thomas J Webster
Interstellar Therapeutics, United States
Robert Buenker
University of Wuppertal, Germany
Will Skene
Montreal University, Canada
Valeriy A Buryachenko
Micromechanics & Composites LLC, United States
Anis Rahman
Applied Research & Photonics, Inc, United States
Will Skene
Montreal University, Canada
Robert Guidoin
Laval University, Canada
Robert Buenker
University of Wuppertal, Germany
Martin Krus
Fraunhofer Institute for Building Physics, GermanySubmit your abstract Today
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