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Multisensor-integra...
Multisensor-integrated organs-on-chips platform for automated and continual in situ monitoring of organoid behaviors
- Article/chapterEnglish2017
Publisher, publication year, extent ...
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2017-03-06
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National Academy of Sciences,2017
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printrdacarrier
Numbers
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LIBRIS-ID:oai:DiVA.org:kth-290816
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https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-290816URI
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https://doi.org/10.1073/pnas.1612906114DOI
Supplementary language notes
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Language:English
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Summary in:English
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Subject category:ref swepub-contenttype
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Subject category:art swepub-publicationtype
Notes
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QC 20210226
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Organ-on-a-chip systems areminiaturizedmicrofluidic 3D human tissue and organ models designed to recapitulate the important biological and physiological parameters of their in vivo counterparts. They have recently emerged as a viable platform for personalized medicine and drug screening. These in vitro models, featuring biomimetic compositions, architectures, and functions, are expected to replace the conventional planar, static cell cultures and bridge the gap between the currently used preclinical animal models and the human body. Multiple organoid models may be further connected together through the microfluidics in a similar manner in which they are arranged in vivo, providing the capability to analyze multiorgan interactions. Although a wide variety of human organ-on-a-chip models have been created, there are limited efforts on the integration of multisensor systems. However, in situ continual measuring is critical in precise assessment of the microenvironment parameters and the dynamic responses of the organs to pharmaceutical compounds over extended periods of time. In addition, automated and noninvasive capability is strongly desired for long-term monitoring. Here, we report a fully integrated modular physical, biochemical, and optical sensing platform through a fluidics-routing breadboard, which operates organ-on-a-chip units in a continual, dynamic, and automated manner.We believe that this platform technology has paved a potential avenue to promote the performance of current organ-on-a-chip models in drug screening by integrating a multitude of real-time sensors to achieve automated in situ monitoring of biophysical and biochemical parameters.
Subject headings and genre
Added entries (persons, corporate bodies, meetings, titles ...)
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Aleman, J.
(author)
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Shin, S. R.
(author)
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Kilic, T.
(author)
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Kim, D.
(author)
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Shaegh, S. A. M.
(author)
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Massa, S.
(author)
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Riahi, R.
(author)
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Chae, S.
(author)
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Hu, N.
(author)
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Avci, H.
(author)
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Zhang, W.
(author)
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Silvestri, A.
(author)
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Nezhad, A. S.
(author)
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Manbohi, A.
(author)
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De Ferrari, Fabio
(author)
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Polini, A.
(author)
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Calzone, G.
(author)
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Shaikh, N.
(author)
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Alerasool, P.
(author)
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Budina, E.
(author)
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Kang, J.
(author)
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Bhise, N.
(author)
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Ribas, J.
(author)
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Pourmand, A.
(author)
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Skardal, A.
(author)
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Shupe, T.
(author)
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Bishop, C. E.
(author)
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Dokmeci, M. R.
(author)
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Atala, A.
(author)
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Khademhosseini, A.
(author)
Related titles
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In:Proceedings of the National Academy of Sciences of the United States of America: National Academy of Sciences114:12, s. E2293-E23020027-84241091-6490
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Zhang, Y. S.
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Aleman, J.
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Shin, S. R.
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Kilic, T.
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Kim, D.
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Shaegh, S. A. M.
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show more...
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Massa, S.
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Riahi, R.
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Chae, S.
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Hu, N.
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Avci, H.
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Zhang, W.
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Silvestri, A.
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Nezhad, A. S.
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Manbohi, A.
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De Ferrari, Fabi ...
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Polini, A.
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Calzone, G.
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Shaikh, N.
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Alerasool, P.
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Budina, E.
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Kang, J.
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Bhise, N.
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Ribas, J.
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Pourmand, A.
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Skardal, A.
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Shupe, T.
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Bishop, C. E.
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Dokmeci, M. R.
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Atala, A.
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Khademhosseini, ...
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show less...
- About the subject
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- MEDICAL AND HEALTH SCIENCES
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MEDICAL AND HEAL ...
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and Medical Biotechn ...
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Proceedings of t ...
- By the university
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Royal Institute of Technology