Kimura Hiroshi
- 教授
- 学位:博士(工学)
基本情報
所属
- Undergraduate School of Engineering / Department of Bioengineering
- Graduate School of Science and Technology / Course of Science and Technology
- Graduate School of Engineering / Course of Mechanical Engineering
- Micro/Nano Technology Center
ジャンル
- Biotechnology
研究と関連するSDGs
詳細情報
研究キーワード
- Microphysiological System (MPS)
- Bioengineering
- Microfluidic device
- MicroTAS
- BIo MEMS
研究分野
- Nanotechnology/Materials Nano/micro-systems
論文
Standalone cell culture microfluidic device-based microphysiological system for automated cell observation and application in nephrotoxicity tests
講演・口頭発表等
- Michrophysiological System (MPS) Based on Microfluidic Technology for Safety
- Status of the Japanese MPS project supported by AMED
- Importance of Oxygen Supply in Engineering Physiological Tissues Both in Static Microplates and Perfused Microphysiogical Systems
- Organs-On-A-Chip Systems with High Operability and Pumping Capability for Practical use in Drug Discovery
- In vitro seminiferous tubule imaging method for high-magnification observation using an inverted microscope
- Microphysiological System (MPS) Platforms with High Operability for Commercialization.
所属学会
- THE SOCIETY OF INSTRUMENT AND CONTROL ENGINEERS
- THE INSTITUTE OF ELECTRICAL ENGINEERS OF JAPAN
- THE SOCIETY FOR CHEMISTRY AND MICRO-NANO SYSTEMS
- THE JAPAN SOCIETY OF MECHANICAL ENGINEERS
共同研究・競争的資金等の研究課題
Novel tubular homeostatic mechanism mediated by primary cilia
A new drug-delivery method to the central nervous system: study on novel proteins that regulate drug-permeability in the blood-brain barrier
A hydrogen isotope separation method based on the Ludwig-Soret effect
An ALS2-linked functional cellular network-based study on molecular mechanisms of selective upper motor neuron degeneration in ALS
Ensuring integrity of gametogenesis
Establishment of in vitro spermatogenesis with high integrity
An integrated body-on-a-chip mimicking physiological parameters
In vitro system maintaining efficient spermatogenesis for a long duration
Development of an On-chip Simulator of Hepatic Lobule
Development of in vitro embryo culture system based-on microfluidics for artificial reproductive technology
Ischemic stroke therapy using quality and quantity-controlled culture system enriched in endothelial progenitor cells
ResearchMapへ移動します
Contact Us
Inquiries about coverage
Public Affairs Division Public Affairs and Communications Department
Tel. 0463-63-4670(direct dialing)