研究業績

• Red blood cell fatigue evaluation based on the close-encountering point between extensibility and recoverability, Shinya Sakuma, Keisuke Kuroda, Dylan Tsai, Wataru Fukui, Fumihito Arai and Makoto Kaneko, Lab on a Chip, 14(6), 1135-1141, 2014.


• Mechanical diagnosis of human erythrocytes by ultra-high speed manipulation unraveled critical time window for global cytoskeletal remodeling, Hiroaki Ito, Ryo Murakami, Shinya Sakuma, Dylan Tsai, T. Gutsmann, K. Brandenburg, J. Poschl, Fumihito Arai, Makoto Kaneko, Motomu Tanaka, Scientific Reports, Vol.7(43134), 2017.


• On-Chip Cell Incubator for Simultaneous Observation of Culture with and without Periodic Hydrostatic Pressure, Mitsuhiro Horade, Chia-Hung Dylan Tsai, and Makoto Kaneko, Micromachines, 10(2), 133, 2019.


• Deformation of a Red Blood Cell in a Narrow Rectangular Microchannel, Naoki Takeishi, Hiroaki Ito, Makoto Kaneko, and Shigeo Wada, Micromachines 10(3) 199, 2019.


• Rotational manipulation of a microscopic object inside a microfluidic channel, Hiroyuki Harada, Makoto Kaneko, and Hiroaki Ito, Biomicrofluidics, 14, 054106(2020). doi:10.1063/5.0013309.


• On-chip deformability measurement of eukaryotic cells: Comparison to anucleate cells, Hiroaki Ito, Kohei Fujimoto, Makoto Kaneko, The 23rd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2019), Basel, Oct 28th 2019.


• On-chip cell manipulation and applications to deformability measurements, Hiroaki Ito, Makoto Kaneko, ROBOMECH Journal, 7(1), 3, 2020.


• Push/Pull Inequality Based High-Speed On-Chip Mixer Enhanced by Wettability,Toshio Takayama, Naoya Hosokawa, Chia-Hung Dylan Tsai and Makoto Kaneko, Micromachines 2020, 11(10), 950; doi:10.3390/mi11100950


• On-Chip Micro Mixer Driven by Elastic Wall with Virtual Actuator, Toshio Takayama, Makoto Kaneko, and Chia-Hung Dylan Tsai, Micromachines, 12, 217, 2021.


• Challenges and Possibilities of Cell-Based Tissue-Engineered Vascular Grafts, Junichi Saito, Makoto Kaneko, Yoshihiro Ishikawa, and Utako Yokoyama, Cyborg and Bionic Systems (CBS),Feb.1 2021.


• Scaffold-free tissue-engineered arterial grafts derived from human skeletal myoblasts, Junichi Saito, Utako Yokoyama, Takashi Nakamura, Tomomitsu Kanaya, Takayoshi Ueno, Yuji Naito, Toshio Takayama, Makoto Kaneko, Shigeru Miyagawa, Yoshiki Sawa, Yoshihiro Ishikawa, Artificial Organs. 2021 Feb 4. doi: 10.1111/aor.13930, 2021.


• Multilayered human skeletal muscle myoblast sheets promote the healing process after colonic anastomosis in rats,Takashi Nakamura, Utako Yokoyama, Tomomitsu Kanaya, Takayoshi Ueno, Takanori Yoda, Atsushi Ishibe, Yuko Hidaka, Masanari Umemura, Toshio Takayama, Makoto Kaneko, Shigeru Miyagawa, Yoshiki Sawa, Itaru Endo, Yoshihiro Ishikawa, Cell Transplantation, vol30, pp1-15, 2021.


• Fabrication of Microparticles with Front-Back Asymmetric Shapes Using Anisotropic Gelation, Dongkyu Lee, Hiroyuki Kitahata, Hiroaki Ito, Micromachines 2021 doi:10.3390/mi12091121


• Modeling and Analysis of a High-Speed Adjustable Grasping Robot Controlled by a Pneumatic Actuator, Kenichi Ohara, Ryosuke Iwazawa, and Makoto Kaneko, Robotics 2022, 11(1), 27; doi:10.3390/robotics 11010027