Abstract
For forming cell tissues alternative to bio-tissues, this research targets the technology for forming bio-tissue modules by cultivating 3-D cell tissues from various kinds of cells. In fiscal 1999, research was made on various issues of element technologies necessary for forming module structure of bio-tissues, and study was also made on the application of 3-D cell tissue module engineering to industrial fields. Survey was made on element technologies and solutions supporting such engineering, and in addition, on progressive conditions of cell cultivation techniques, and concrete techniques for expressing cell functions. Research was made on a cell behavior under physicochemical stimulus environment to study the optimum environment for cell multiplication and function expression. Further research was made on state analysis of cells, in particular, fast precise measurement techniques of activation or malignant of cells and secretion of toxic substances by physical/optical analytical evaluation techniques such as photo-CT and spectroscopic analysis, and biochemical analysis techniques using bio-sensors. Study was also made on successful development and application cases of practical bio-artificial organs in western countries. (NEDO)
Citation Formats
None.
Fiscal 1999 leading research report. Research on 3-D cell tissue module technology; 1999 nendo sanjigen saibo soshiki module kogaku chosa kenkyu hokokusho.
Japan: N. p.,
2000.
Web.
None.
Fiscal 1999 leading research report. Research on 3-D cell tissue module technology; 1999 nendo sanjigen saibo soshiki module kogaku chosa kenkyu hokokusho.
Japan.
None.
2000.
"Fiscal 1999 leading research report. Research on 3-D cell tissue module technology; 1999 nendo sanjigen saibo soshiki module kogaku chosa kenkyu hokokusho."
Japan.
@misc{etde_20124334,
title = {Fiscal 1999 leading research report. Research on 3-D cell tissue module technology; 1999 nendo sanjigen saibo soshiki module kogaku chosa kenkyu hokokusho}
author = {None}
abstractNote = {For forming cell tissues alternative to bio-tissues, this research targets the technology for forming bio-tissue modules by cultivating 3-D cell tissues from various kinds of cells. In fiscal 1999, research was made on various issues of element technologies necessary for forming module structure of bio-tissues, and study was also made on the application of 3-D cell tissue module engineering to industrial fields. Survey was made on element technologies and solutions supporting such engineering, and in addition, on progressive conditions of cell cultivation techniques, and concrete techniques for expressing cell functions. Research was made on a cell behavior under physicochemical stimulus environment to study the optimum environment for cell multiplication and function expression. Further research was made on state analysis of cells, in particular, fast precise measurement techniques of activation or malignant of cells and secretion of toxic substances by physical/optical analytical evaluation techniques such as photo-CT and spectroscopic analysis, and biochemical analysis techniques using bio-sensors. Study was also made on successful development and application cases of practical bio-artificial organs in western countries. (NEDO)}
place = {Japan}
year = {2000}
month = {Mar}
}
title = {Fiscal 1999 leading research report. Research on 3-D cell tissue module technology; 1999 nendo sanjigen saibo soshiki module kogaku chosa kenkyu hokokusho}
author = {None}
abstractNote = {For forming cell tissues alternative to bio-tissues, this research targets the technology for forming bio-tissue modules by cultivating 3-D cell tissues from various kinds of cells. In fiscal 1999, research was made on various issues of element technologies necessary for forming module structure of bio-tissues, and study was also made on the application of 3-D cell tissue module engineering to industrial fields. Survey was made on element technologies and solutions supporting such engineering, and in addition, on progressive conditions of cell cultivation techniques, and concrete techniques for expressing cell functions. Research was made on a cell behavior under physicochemical stimulus environment to study the optimum environment for cell multiplication and function expression. Further research was made on state analysis of cells, in particular, fast precise measurement techniques of activation or malignant of cells and secretion of toxic substances by physical/optical analytical evaluation techniques such as photo-CT and spectroscopic analysis, and biochemical analysis techniques using bio-sensors. Study was also made on successful development and application cases of practical bio-artificial organs in western countries. (NEDO)}
place = {Japan}
year = {2000}
month = {Mar}
}