Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
---|---|---|---|---|---|
Symposium <Roles of chemical engineering for widespread application of regenerative medicine> | |||||
(9:40–11:00) (Chair: Fukuda J.) | |||||
Y203 | Possible contributions of chemical engineering to cell culture process for regenerative medicine | large-scale culture cellular organization mass transfer | S-2 | 182 | |
Y205 | Development of 3-dimentional tissues with perfusable capillary-like structures | Tissue Engineering Vascularization Perfusion | S-2 | 259 | |
Y206 | Size control of hemoglobin and albumin-based oxygen carriers by SPG membrane emulsification | hemoglobin-based oxygen carriers Albumin SPG membrane emulsification | S-2 | 719 | |
(11:00–12:00) (Chair: Mizumoto H.) | |||||
Y207 | Construction of chimeric receptors directing for expansion of hematopoietic stem cells | chimeric receptor growth signal hematopoietic stem cell | S-2 | 247 | |
Y208 | Nervous biological assay device consist of GF-immobilizable matrix | ECM-modelized gel in situ observation neural stem cell | S-2 | 376 | |
Y209 | Coalescence Thecnology of BNCT and Reorganization Therapies against cancer | BNCT iPS Sorting | S-2 | 88 | |
(13:00–14:00) (Chair: Sugiura S.) | |||||
Y213 | Development of scalable iPS cell culture system for fabricating regenerative human cardiac tissue (Inst. Adv. Biomedical Eng. and Sci. (TWIns) / Department of Cardiology, Tokyo Women's Medical U.) Matsuura Katsuhisa | bioreactor cardiac tissue iPS cells | S-2 | 480 | |
Y215 | Development of operation methods for efficient suspension culture of human iPS cells (Dept. Biotech., Grad. Sch. Eng. Osaka U.) Nagamori Eiji, | human induced pluripotent stem cell suspention culture cell aggregate | S-2 | 475 | |
(14:00–15:00) (Chair: Ijima H.) | |||||
Y216 | Construction and evaluation of three-dimensional hepatic tissue by bottom-up approach using spheroids | hepatocyte coculture three-dimensional tissue | S-2 | 154 | |
Y217 | Technique for formation and recovery of micro-tissues using NIR-responsive gel | Carbon nanotube NIR-responsive gel Micro-tissue | S-2 | 406 | |
Y218 | Fabrication of 3D Tissue Construct Using Photodegradable Hydrogel | hydrogel photodegradation tissue engineering | S-2 | 666 | |
(15:00–16:00) (Chair: Nagamori E.) | |||||
Y219 | Development of automatic cell culture system aiming medical use (Kawasaki Heavy Industries, Ltd.) Nakashima Katsumi | automatic cell culture system mesenchymal stem cell robot technology | S-2 | 477 | |
Y221 | Characterization of solubilized matrix derived from decellularized liver | Decellularization Extracellular matrix Characterization | S-2 | 375 | |
(16:00–17:00) (Chair: Nakazawa K.) | |||||
Y222 | Construction procedure of liver substitute using decellularized liver based on whole organ engineering | Liver Decellularized liver Whole organ engineering | S-2 | 949 | |
Y223 | Rapid fabrication of 3D vascularized tissue using molding process | In situ crosslinkable hydrogel Electrochemistry Vascular | S-2 | 7 | |
Y224 | Engineering three-dimensional vascularized liver tissues | electrochemistry vasculature liver | S-2 | 136 |