Organs-on-chips


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Piracy-free
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Assured Quality
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Secure Transactions
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Sustainably Printed
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About The Book

Recent advances in microsystems technology and cell culture techniques have led to the development of organ-on-chip microdevices that produce tissue-level functionality not possible with conventional culture models by recapitulating natural tissue architecture and microenvironmental cues within microfluidic devices. Since the physiological microenvironments in living systems are mostly microfluidic in nature the use of microfluidic devices facilitates engineering cellular microenvironments; the microfluidic devices allow for control of local chemical gradients and dynamic mechanical forces which play important roles in cellular viability and function. The organ-on-chip microdevices have great potential to promote drug discovery and development to model human physiology and disease and to replace animal models for efficacy and toxicity testing. Recently induced pluripotent stem (iPS) cells have been leveraged to develop organs-on-chips which enable various types of organ models and disease models not possible with primary cells and cell lines. This Special Issue seeks to showcase research papers short communications and review articles that focus on: (1) microdevices to mimic or control cellular microenvironment; (2) microdevices to evaluate interactions between different organ models; (3) microdevices to maintain iPS cells or iPSC-derived cells; and (4) sensors and techniques to evaluate drug efficacy or toxicity.
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