Time | Paper ID | Title / Autors | Keywords | Topic code | Ack. number |
---|---|---|---|---|---|
Hall B, Day 1 | |||||
(13:00–13:40) ( Tanaka T.) | |||||
B113 | [Keynote Lecture] Continuous Separation of Microspheres and Biological Cells Using Microfluidics | Cell Sorting Microfluidics Continuous Separation | S-8 | 151 | |
(13:40–15:00) ( Tanaka T., Yoshimoto M.) | |||||
B115 | Novel cell separation technologies base on photo-responsible materials | photo-responsible material cell separation cell-based assay | S-8 | 738 | |
B116 | PLLA microfiltration membranes prepared via nonsolvent induced phase separation method | microfiltration membrane poly(L-lactic acid) surfactant | S-8 | 142 | |
B117 | Adsorption of proteins on hydroxyapatite microcapsules | hydroxyapatite microcapsule adsorption | S-8 | 140 | |
B118 | Adsorption isotherms of sugars and salts onto amphoteric ion-exchange resin | adsorption isotherms amphoteric ion-exchange resin salts | S-8 | 68 | |
(15:00–16:20) ( Minakuchi K., Nakagawa K.) | |||||
B119 | Design of Liposome Membrane for Recognition of RNAs | Membranome Liposome design RNA recognition | S-8 | 830 | |
B120 | Separation of PEGylated proteins by chromatography | chromatography PEGylated protein electro-static interaction | S-8 | 438 | |
B121 | Aggregation of protein in an industrial freeze-drying process | freeze-drying protein freeze-drying | S-8 | 784 | |
B122 | Protein stabilization during freeze-drying by various sugar surfactants | freeze-drying protein stabilization sugar surfactant | S-8 | 679 | |
Hall B, Day 2 | |||||
(10:00–11:00) ( Yada T., Kumada Y.) | |||||
B204 | Development of immobilization technology for antibody fragments and application to biosensing | Material-binding peptide antibody fragment immobilization | S-8 | 257 | |
B205 | Development of DNA microarray and its detector, which have a high signal-to-noise ratio, and their application. | microarray | S-8 | 230 | |
B206 | Rational design and engineering of affinity ligand to obtain improved chemical stability and elution properties | Protein A affinity chromatography | S-8 | 104 | |
(11:00–12:00) ( Ito T., Tanaka T.) | |||||
B207 | Clarification Process for Monoclonal Antibodies with Improved Depth Filters | Clarification Flocculation Monoclonal Antibodies | S-8 | 86 | |
B208 | Hollow fiber membrane with high protein-permeability | tangential flow filtration protein permeability clarification of cell culture | S-8 | 168 | |
B209 | Buffer type dependence of mAb aggregates reduction by AEX membrane | Anion-Exchange membrane mAb aggregates Flow through | S-8 | 191 | |
(13:00–14:20) ( Shirataki H., Yoshimoto N.) | |||||
B213 | Mechanism of Specific Influence of L-Glutamic Acid on the Crystal Shape of L-Valine | L-Valine L-Glutamic Acid Crystallization | S-8 | 149 | |
B214 | Thermo-responsive Protein A chromatography | Protein A antibody chromatography | S-8 | 797 | |
B215 | Protein Separation using a Cationic Mixed-Mode Resin | Tryptophan mixed-mode resin protein separation | S-8 | 103 | |
B216 | Problems in separation processes for biological products | bioseparation biological products validation | S-8 | 460 | |
(14:20–15:00) ( Yoshimoto M.) | |||||
B217 | [Keynote Lecture] Mechanistic models for separation processes of biological products | Mechanistic model Chromatography Biological products | S-8 | 449 | |
(15:00–15:20) ( Tanaka T., Yoshimoto M.) | |||||
General discussion |