New Concept of Virtual Reduction Mechanism and Apply for Cell Positioning with High Preciaison

• Project/Area Number: 26630098
• Research Category: Grant-in-Aid for Challenging Exploratory Research
• Allocation Type: Multi-year Fund
• Research Field: Intelligent mechanics/Mechanical systems
• Research Institution: Osaka University
• Principal Investigator: KANEKO MAKOTO 大阪大学, 工学(系)研究科(研究院), 教授 (70224607)
• Project Period (FY): 2014-04-01 – 2015-03-31
• Project Status: Completed (Fiscal Year 2014)
• Budget Amount: ¥3,900,000 (Direct Cost: ¥3,000,000、Indirect Cost: ¥900,000); Fiscal Year 2014: ¥3,900,000 (Direct Cost: ¥3,000,000、Indirect Cost: ¥900,000)
• Keywords: マイクロ流路 / 細胞マニピュレーション / 仮想減速器 / アクチュエータ / 能動的細胞制御 / マイクロチップ / マイクロ・ナノデバイス / システムオンチップ / バイオ関連機器 / ナノバイオ / 細胞・組織

Outline of Final Research Achievements

The finest manipulation resolution up to 250 nanometer is achieved with a macro-scale actuator in this research project. While the gigantic ratio difference between a macro-scale and a micro-scale fluidic system, a transmission system using PDMS deformation has been developed to make micro manipulation possible on a macro actuator. The research result directly benefits the cost and convenience of micro manipulation, and further, is currently applied on biomedical researches.

Research Products

• [Journal Article] On-Chip Actuation Transmitter for Enhancing the Dynamic Response of Cell Manipulation using a Macro-scale Pump (2015)
  • Author(s): T. Monzawa, M. Kaneko, C. Tsai, S. Sakuma, and F. Arai
  • Journal Title: Biomicrofluidics Volume: 9 Issue: 1 Pages: 014114-014114
  • DOI: 10.1063/1.4907757
  • Peer Reviewed / Acknowledgement Compliant
• [Journal Article] High Resolution Cell Positioning Based on a Flow Reduction Mechanism for Enhancing Deformability Mapping (2015)
  • Author(s): S. Sakuma, K. Kuroda, F. Arai, T. Taniguchi, T. Ohtani, Y. Sakata, and M. Kaneko
  • Journal Title: Micromachines Volume: 5 Issue: 4 Pages: 1188-1201
  • DOI: 10.3390/mi5041188
  • Peer Reviewed / Open Access / Acknowledgement Compliant
• [Journal Article] Geometrical Alignment for Improving Cell Evaluation in a Microchannel with Application on Multiple Myeloma Red Blood Cells (2014)
  • Author(s): C. Tsai, S. Sakuma, F. Arai, T. Taniguchi, T. Ohtani, Y. Sakata and M. Kaneko
  • Journal Title: RSC Advances Volume: 4 Issue: 85 Pages: 45050-45058
  • DOI: 10.1039/c4ra08276a
  • Peer Reviewed / Open Access / Acknowledgement Compliant
• [Presentation] Cell Pinball: What is the Physics (2015)
  • Author(s): R. Murakami, M. Kaneko, S. Sakuma, and F. Arai
  • Organizer: IEEE MEMS2015
  • Place of Presentation: Portugal, Estril
  • Year and Date: 2015-01-18 – 2015-01-22
• [Presentation] On-Chip Pressure sensing by Visualizing PDMS Deformation Using Microbeads (2015)
  • Author(s): C. Tsai and M. Kaneko
  • Organizer: IEEE MEMS2015
  • Place of Presentation: Portugal, Estril
  • Year and Date: 2015-01-18 – 2015-01-22
• [Presentation] Fluid Seperated Volumetric Flow Converter for High Speed and Precise Cell Position Contrl (2015)
  • Author(s): T. Monzawa, S. Sakuma, F. Arai, and F. Arai
  • Organizer: IEEE MEMS2015
  • Place of Presentation: Portugal, Estril
  • Year and Date: 2015-01-18 – 2015-01-22
• [Presentation] Evaluation of Cell Deformability through Fluidic Micro Channel (2014)
  • Author(s): M. Kaneko
  • Organizer: URAI2014
  • Place of Presentation: Malaysia, Kuala Lumpur
  • Year and Date: 2014-11-12 – 2014-11-15
  • Invited
• [Presentation] Cell Pinball (2014)
  • Author(s): R. Murakami, M. Kaneko, S. Sakuma, and F. Arai
  • Organizer: IEEE MHS2015
  • Place of Presentation: 野依記念学術記念館（名古屋市千種区）
  • Year and Date: 2014-11-09 – 2014-11-12