TY - JOUR AU - Kilic, Tugba AU - Navaee, Fatemeh AU - Stradolini, Francesca AU - Renaud, Philippe AU - Carrara, Sandro PY - 2018 TI - Organs-on-chip monitoring: sensors and other strategies JF - Microphysiological Systems; Vol 2 (September 2018): Microphysiological Systems Y2 - 2018 KW - N2 - As a paradigm shifting player of tissue engineering, organs-on-chips (OOCs) are considered to hold great potential for future “clinical trials on chip” as well as a step forward to design personalized medicine. Despite all ethical concerns raised by community and suspicious attitude of medical authorities, the field keeps evolving with a remarkable speed. Although the majority of efforts have been made on making OOCs more physiologically relevant via 3D cell culture techniques, incorporation of smart biomaterial matrices and microfluidic designs, considerable amount of studies have also been focused on these providing monitoring tools to these platforms. The aim of this review is to provide, for the first time, a comprehensive report on already available methods for monitoring OOCs. In that regard, this paper critically reviews physical, chemical and biochemical sensors that have been implemented for OOCs and cell culture monitoring by also discussing the advantages and disadvantages associated with each proposed method. UR - https://mps.amegroups.org/article/view/4689