Ito Akira (Nagoya Univ.) |
In recent years, chemical engineering has greatly contributed to the processes of regenerative medicine, production of antibody drugs, and the development of biomimetic systems. The purpose of this symposium is to invite general presentations on new technologies that will contribute to the development of future medicine and drug discovery, and to actively discuss the latest research results.
Most recent update: 2022-01-31 16:50:01
The keywords that frequently used in this topics code. | Keywords | Number | |
---|---|---|---|
Biomedical application | 1 | ||
cancer treatment | 1 | ||
iPS cells | 1 | ||
enzymatic post-modification | 1 | ||
Lipid Membrane | 1 | ||
i-motif | 1 | ||
B cell lymphoma | 1 | ||
Nucleic Acid | 1 | ||
cooperative effect | 1 | ||
Cationic | 1 | ||
cell differentiation | 1 | ||
3D bioprinting | 1 | ||
microfluidic device | 1 | ||
protein-protein interaction | 1 | ||
vaccine | 1 | ||
peritoneal injury | 1 | ||
three-dimensional culture | 1 | ||
phospholipid polymers | 1 | ||
biopharmaceutical | 1 | ||
3D culture | 1 | ||
Bioprinting | 1 | ||
redox reactions | 1 | ||
Shear-induced structure | 1 | ||
signal transduction | 1 | ||
lipid bilayer | 1 | ||
Crosslinked film | 1 | ||
host cell | 1 | ||
porous scaffold | 1 | ||
Aqueous two-phase system | 1 | ||
Cell sheets | 1 | ||
antibody screening | 1 | ||
CHL-YN | 1 |
ACKN No. | Title/Author(s) | Keywords | Style |
---|---|---|---|
178 | Development of SOLIS to detect intracellular protein-protein interactions based on growth signals induced by membrane localization | protein-protein interaction signal transduction antibody screening | O |
231 | Development of redox phospholipid polymers for cancer treatment | cancer treatment redox reactions phospholipid polymers | O |
232 | Characterization of rapidly proliferating Chinese hamster lung (CHL) -YN cells and their culture control as novel host cells for producing recombinant proteins | CHL-YN host cell biopharmaceutical | O |
239 | Double-cooperative effects between antimicrobial peptides towards the development of antimicrobial agents | antimicrobial peptide cooperative effect lipid bilayer | O |
318 | Expansion and endodermal differentiation of iPS cells in a three-dimensional culture using hollow fibers. | iPS cells three-dimensional culture cell differentiation | O |
325 | Fabrication of hydrogel fiber with aqueous two-phase ink by 3D bioprinting | 3D bioprinting Aqueous two-phase system Shear-induced structure | O |
344 | Fabrication of peptidic self-assembled fibers that can be post-modified with proteins and their vaccine application | Self-assembled peptide enzymatic post-modification vaccine | O |
576 | Preparation of porous hydrogel constructs using microfluidic devices | Bioprinting microfluidic device porous scaffold | O |
753 | Cationic crosslinked film, by modified Poly(vinyl alcohol) and dextran for biomedical applications | Cationic Crosslinked film Biomedical application | O |
771 | Analysis on the Interaction between i-motif Nucleic Acids and Lipid Membranes | i-motif Lipid Membrane Nucleic Acid | O |
870 | Approach from cell sheet engineering to improve peritoneal injury | Cell sheets peritoneal injury | O |
873 | Development of B cell lymphoma 3D culture model | B cell lymphoma 3D culture | O |