Organ-on-a-Chip: A New Paradigm for Drug Development
The pharmaceutical industry has been desperately searching for efficient drug discovery methods. Organ-on-a-Chip, a cutting-edge technology that can emulate the physiological environment and functionality of human organs on a chip for disease modeling and drug testing, shows great potential for revo...
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Veröffentlicht in: | Trends in pharmacological sciences (Regular ed.) 2021-02, Vol.42 (2), p.119-133 |
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Sprache: | eng |
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Zusammenfassung: | The pharmaceutical industry has been desperately searching for efficient drug discovery methods. Organ-on-a-Chip, a cutting-edge technology that can emulate the physiological environment and functionality of human organs on a chip for disease modeling and drug testing, shows great potential for revolutionizing the drug development pipeline. However, successful translation of this novel engineering platform into routine pharmacological and medical scenarios remains to be realized. In this review, we discuss how the Organ-on-a-Chip technology can have critical roles in different preclinical stages of drug development and highlight the current challenges in translation and commercialization of this technology for the pharmacological and medical end-users. Moreover, this review sheds light on the future developmental trends and need for a next-generation Organ-on-a-Chip platform to bridge the gap between animal studies and clinical trials for the pharmaceutical industry.
Organ-on-a-Chip is a promising interdisciplinary technique emulating in vivo physiology and pathology for in vitro disease modeling, drug screening, and precision medicine.The Organ-on-a-Chip technology can be organically incorporated into the drug development pipeline from early drug discovery to preclinical screening, testing, and translation of new drugs, which bridges the gap between animal studies and clinical trials involving human subjects.The future development of personalized Organ-on-a-Chip and continuous integration of novel engineering tools (e.g., automation handling, 3D printing. and in situ multisensors) and biological concepts (e.g., patient-specific induced pluripotent stem cells and organoids) into Organ-on-a-Chip platform will unprecedentedly promote its biomedical applications. |
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ISSN: | 0165-6147 1873-3735 |
DOI: | 10.1016/j.tips.2020.11.009 |