Hyper Bio Assembler for 3D Cellular Systems
Published on 23. July 2015
Book
Hardback
XI, 349 pages
978-4-431-55296-3 (ISBN)
Description
Hyper Bio Assembler for Cellular Systems is the first book to present a new methodology for measuring and separating target cells at high speed and constructing 3D cellular systems in vitro. This book represents a valuable resource for biologists, biophysicists and robotic engineers, as well as researchers interested in this new frontier area, offering a better understanding of the measurement, separation, assembly, analysis and synthesis of complex biological tissue, and of the medical applications of these technologies.
This book is the outcome of the new academic fields of the Ministry of Education, Culture, Sports, Science and Technology's Grant-in-Aid for Scientific Research in Japan.
This book is the outcome of the new academic fields of the Ministry of Education, Culture, Sports, Science and Technology's Grant-in-Aid for Scientific Research in Japan.
More details
Edition
1st ed. 2015
Language
English
Place of publication
Tokyo
Japan
Target group
Professional and scholarly
Research
Product notice
sewn/stitched
Cloth over boards
Illustrations
41 s/w Abbildungen, 161 farbige Abbildungen
XI, 349 p. 202 illus., 161 illus. in color.
Dimensions
Height: 241 mm
Width: 161 mm
Thickness: 30 mm
Weight
787 gr
ISBN-13
978-4-431-55296-3 (9784431552963)
DOI
10.1007/978-4-431-55297-0
Schweitzer Classification
Other editions
Additional editions
Tatsuo Arai | Fumihito Arai | Masayuki Yamato
Hyper Bio Assembler for 3D Cellular Systems
Book
10/2016
Springer
€106.99
Shipment within 10-15 days
Tatsuo Arai | Fumihito Arai | Masayuki Yamato
Hyper Bio Assembler for 3D Cellular Systems
E-Book
07/2015
1st Edition
Springer
€96.29
Available for download
Content
Cell Mechanical Characterization Based on On-chip Robotics.- Dimensionless Evaluation of Cell Deformability with High Resolution Positioning in a Microchannel.- Real-time Capillary-level Microchannel Flow Analysis Using a Full-pixel Frame-straddling Micro-PIV System.- High-throughput Measurements of Single Cell Rheology by Atomic Force Microscopy.- Discrimination of Cells with Specific Antigens Expressed on Membrane Based on the Dielectrophoresis.- Analysis of Physical Characteristic of Hematopoietic Cells.- Cell Manipulation and Cellular Parts Assembly for Constructing 3D Cellular Systems.- High-throughput Cell Assembly Featuring Heterogeneous Hydrogels Produced by Using Microfluidic Devices.- On-Chip Fabrication, Manipulation and Self-Assembly for Three-Dimensional Cell Structures.- Fabrication of 3D Cellular Tissue utilizing MEMS Technologies.- Photofabrication Techniques for 3D Tissue Construct.- Cell Detachment for Engineering Three-Dimensional Tissues.- Quantitative Evaluation ofCell-Hydrogel Adhesion by Advanced Optical Techniques.- Cell Scooper: A Device for the Rapid Transfer of Living Cell Sheet.- Hydrogel-based Microenvironment for Modulating Gland Tissue Morphogenesis.- Bone Related Cell-stimulating Scaffolds Materials and a 3D Cellular Construct for Hard Tissue Regeneration.- The Visualization of Human Organogenesis from Stem Cells by Recapitulating Multicellular Interactions.- Bionic Simulator Based on Organ-Explant-Chip.- Tempo-spatial Dynamics of Cellular Mechanics.- Four-dimensional Analysis for a Tumor Invasion.- Three-dimensional Mineralized Tissue Formation of Cultured Bone Marrow Stromal Cells.- Cell Sociology Illuminated by Reconstructing Functional Tissue with Cell Sheet Based Technology.