2005 Fiscal Year Final Research Report Summary
Development of a Novel Evaluation Technology of Cell Attachment Ability onto Polymeric Materials Based on Quartz Crystal Microbalance (QCM) Technique
Project/Area Number |
16360417
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Research Category |
Grant-in-Aid for Scientific Research (B)
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Allocation Type | Single-year Grants |
Section | 一般 |
Research Field |
Biofunction/Bioprocess
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Research Institution | National Institute of Advanced Industrial Science and Technology |
Principal Investigator |
KANAMORI Toshiyuki National Institute of Advanced Industrial Science and Technology, Research Center of Advanced Bionics, Team Leader, バイオニクス研究センター, 研究チーム長 (50356797)
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Co-Investigator(Kenkyū-buntansha) |
SUMARU Kimio National Institute of Advanced Industrial Science and Technology, Research Center of Advanced Bionics, Senior Researcher, 主任研究員 (40344436)
SUDOH Masao Shizuoka University, Department of Materials Science and Chemical Engineering, Professor, 工学部, 教授 (80154615)
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Project Period (FY) |
2004 – 2005
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Keywords | photo-responsive cell culture surface / two-dimensional cell manipulation / quartz crystal microbalance technique / elasticity change / cell-surface interaction / physicochemical interaction |
Research Abstract |
We have already developed a novel photo-responsive cell culture surface (POPS) and been successful to control the cell attachment ability of the POPS by light irradiation. In this study, we were aiming to reveal the mechanism switching the cell attachment property using quartz crystal microbalance (QCM) technique. Based on the Sauerbrey law, the change in the frequency of a quartz sensor of QCM is assumed to be proportional to the change in the weight of the sensor, so that QCM can detect extremely little adsorption onto the sensor. As the result of this study in 2004, we have found that we can evaluate the attachment and detachment of a small number of cells on the PCPS under light irradiation using QCM. In 2005, we applied the QCM technique to not only the PCPS but also several materials and have found that cell attachment on the surface of a material is dominated by physicochemical interaction between the cells and material, which occurs just after the cells approach the surface. However, it was found that the conventional QCM technique based on the Sauerbrey law is not applicable to this system, because the PCPS and cells are well-swelled elastic bodies. Then, we paid attention to QCM-D, which can detect the change in the elasticity of a material on a quartz sensor, and have had several new and valuable information about cell-surface interaction using a demonstration machine of QCM-D briefly. Now, we are preparing a manuscript about this result for publication. Incidentally, we purchased the QCM-D machine with the other budget and are proceeding with further experiments. Based on the results of this project, it has been possible for us to design PCPS much better, and we have started a new project concerning to "Development of Two-Dimensional Cell Manipulation System" with the budget of the Creation and Support Program for Start-ups from Universities in 2005 of Japan Science and Technology Agency
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Research Products
(25 results)