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Aydogmus, H. (author), Hu, M. (author), Ivancevic, Lovro (author), Frimat, Jean Philippe (author), van den Maagdenberg, Arn M.J.M. (author), Sarro, Pasqualina M (author), Mastrangeli, Massimo (author)Continuous monitoring of tissue microphysiology is a key enabling feature of the organ-on-chip (OoC) approach for in vitro drug screening and disease modeling. Integrated sensing units are particularly convenient for microenvironmental monitoring. However, sensitive in vitro and real-time measurements are challenging due to the inherently...journal article 2023
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- Aydogmus, H. (author), van Ginkel, H.J. (author), Galiti, A-D. (author), Hu, M.H.Y. (author), Frimat, J-P. (author), van den Maagdenberg, A.M.J.M. (author), Zhang, Kouchi (author), Mastrangeli, Massimo (author), Sarro, Pasqualina M (author) poster 2021
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Aydogmus, H. (author), van Ginkel, H.J. (author), Galiti, Anna-Danai (author), Hu, Michel (author), Frimat, Jean-Philippe (author), van den Maagdenberg, Arn (author), Zhang, Kouchi (author), Mastrangeli, Massimo (author), Sarro, Pasqualina M (author)Continuous monitoring of tissue microphysiology is a key enabling feature of the organ-on-chip (OoC) approach for drug screening and disease modeling. Sensing charged species in OoC tissue microenvironments is thereby essential. However, the inherently small (i.e., cm) size of OoC devices poses the challenging requirement to integrate...conference paper 2021
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Mastrangeli, Massimo (author), Aydogmus, H. (author), Dostanic, M. (author), Motreuil-Ragot, P.A. (author), Revyn, N. (author), de Wagenaar, B. (author), Dekker, R. (author), Sarro, Pasqualina M (author)Stemming from the convergence of tissue engineering and microfluidics, organ-on-chip (OoC) technology can reproduce in vivo-like dynamic microphysiological environments for tissues in vitro. The possibility afforded by OoC devices of realistic recapitulation of tissue and organ (patho)physiology may hold the key to bridge the current...conference paper 2021
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Aydogmus, H. (author), Dostanic, M. (author), Jahangiri, M. (author), Sinha, Rajarshi (author), Quiros Solano, W.F. (author), Mastrangeli, Massimo (author), Sarro, Pasqualina M (author)We present an extremely compact field effect transistor (FET)-based electrochemical sensor for in situ real-time and label-free measurement of ion concentrations in the cell culture area of organs-on-chip (OoCs) devices. This sensor replaces the functionality of an external reference electrode, crucial in standard electrochemical sensing, by...conference paper 2020
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Aydogmus, H. (author), van Ginkel, H.J. (author), Mastrangeli, Massimo (author), Zhang, Kouchi (author), Sarro, Pasqualina M (author)<br/>poster 2020
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Aydogmus, H. (author), Dostanic, M. (author), Jahangiri, M. (author), Sinha, Rajarshi (author), Quiros Solano, W.F. (author), Mastrangeli, Massimo (author), Sarro, Pasqualina M (author)Monitoring cell conditions and microenvironment in real time is crucial for Organ-on-Chip (OoC) functionality. In particular, biological cues such as ions, including metals and metabolites, play a critical role in physiology and homeostasis in the human body. • Real-time monitoring of ions without optical systems is an unmet need for OOCs [1]. •...poster 2019