Basic Information

Concurrent Affiliation

• Graduate School of Biostudies, 授業担当教員
• Graduate School of Engineering, 授業担当教員

Academic Degree

• 修士（工学）(東京工業大学)
• 博士（工学）(東京工業大学)

Academic Resume (Graduate Schools)

• 東京工業大学, 大学院生命理工学研究科博士課程生命情報専攻, 修了
• 東京工業大学, 大学院生命理工学研究科修士課程生物工学専攻, 修了

Academic Resume (Undergraduate School/Majors)

• 東京工業大学, 生命理工学部生物工学科, 卒業

Research History

• From Feb. 2023, To Present

  Kyoto University, 高等研究院, 客員准教授
• From Feb. 2023, To Present

  New York University Abu Dhabi, Divisions of Science and Engineering, Associate Professor
• From Sep. 2022, To Jan. 2023

  New York University Abu Dhabi, Divisions of Science and Engineering, Visiting Associate Professor
• From Mar. 2018, To Jan. 2023

  Kyoto University, Institute for Integrated Cell-Material Sciences, Associate Professor
• From Apr. 2017, To Jan. 2023

  Kyoto University, Institute for Integrated Cell-Material Sciences, Principal investigator
• From Oct. 2015, To Mar. 2020

  Doshisha University, Faculty of Life and Medical Sciences Department of Biomedical Information, Adjunct lecturer
• From Jul. 2015, To Mar. 2018

  Kyoto University, Institute for Integrated Cell-Material Sciences, Program-specific research associate professor
• From May 2010, To Jun. 2015

  Kyoto University, Institute for Integrated Cell-Material Sciences, Program-specific research assistant professor

Profile

• Profile

  2003年3月東京工業大学大学院生命理工学研究科生命情報専攻博士課程修了。同年5月〜2010年4月カリフォルニア大学ロサンゼルス校分子医学薬理学専攻にポストドクターとして在籍。2006年6月〜2010年4月同カリフォルニアナノシステム研究所にも在籍。2010年5月京都大学物質—細胞統合システム拠点（iCeMS）特定拠点助教。現在、同iCeMS特定拠点准教授。現在ナノ加工技術、材料開発、マイクロ流体デバイスを応用した幹細胞工学に関する研究に従事。2001年「インテリジェント材料シンポジウム」高木賞，2007年「NCI (National Cancer Institute, USA) Alliance for Nanotechnology in Cancer」ベストポスター賞，2015年日本組織培養学会奨励賞受賞。化学とマイクロ・ナノシステム学会（CHEMINAS），日本再生医療学会，日本化学会，ISSCR会員。博士（工学）。

Language of Instruction

• English

ID,URL

• ORCID ID

  0000-0003-2948-3264

• J-Global ID

  201201090465528373

• External link

  https://ken1kameigroup.org

researchmap URL

• https://researchmap.jp/ken1kamei

Research

Research Topics, Overview of the research

• Research Topics

  Micro/nanoengineered cellular microenvironments to control stem cell functions

• Overview of the research

  My central research goal is to develop a new tool that integrates micro/nanotechnology and molecular imaging techniques to understand the molecular and cellular mechanisms regulating stem cell fate transitions. I am particularly interested in (i) developing microfluidic culture platforms combined with on-chip image cytometry to visualize the processes over self-renewal, survival, differentiation and de-differentiation at a single cell level, and (ii) assessing the in vitro microenvironments established with a microfluidic culture platform integrated with nanomaterials to precisely control stem cells for applications in tissue engineering and regenerative medicine.

Research Interests

• nanofiber
• microfluidics
• stem cells

Research Areas

• Life sciences, Cell biology
• Life sciences, Molecular biology
• Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Applied biofunctional and bioprocess engineering
• Nanotechnology/Materials, Nanobioscience
• Nanotechnology/Materials, Nano/micro-systems
• Nanotechnology/Materials, Nanomaterials

Papers

• Self-amplifying ROS-responsive SN38 prodrug nanoparticles for combined chemotherapy and ferroptosis in cancer treatment

  Yu Qin; Na Liu; Fenghui Wang; Zeping Gao; Cong Luo; Chutong Tian; Ken-ichiro Kamei

  Carbon, Mar. 2025

  
• Advances in Microfluidic Bioprinting for Multi-Material Multi-Cellular Tissue Constructs

  Rashik Chand; Ken-ichiro Kamei; Sanjairaj Vijayavenkataraman

  Cell Engineering Connect, 10 Jan. 2025

  
• Peptide-based fluorescent probes for the diagnosis of tumor and image-guided surgery.

  Ming-Ze Cai; Zhuan Wen; Hao-Ze Li; Yang Yang; Jian-Xiao Liang; Yu-Si Liao; Jing-Yao Wang; Li-Ying Wang; Ni-Yuan Zhang; Ken-Ichiro Kamei; Hong-Wei An; Hao Wang

  Biosensors & bioelectronics, 15 May 2025, Peer-reviewed, Corresponding author

  
• Proof of concept for brain organoid-on-a-chip to create multiple domains in forebrain organoids.

  Yuan-Chen Tsai; Hajime Ozaki; Ango Morikawa; Kaori Shiraiwa; Andy Prosvey Pin; Aya Galal Salem; Kenneth Akady Phommahasay; Bret Kiyoshi Sugita; Christine Hein Vu; Saba Mamoun Hammad; Ken-Ichiro Kamei; Momoko Watanabe

  RSC advances, 29 Jan. 2025, Peer-reviewed, Corresponding author

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• Microfluidics-guided fluorescent nanodiamond assembly method for highly sensitive thermometry

  Keita Saikawa; Masaya Zetsu; Daiki Ueshima; Taiichi Shikama; Ken-ichiro Kamei; Osamu Tabata; Yoshikazu Hirai

  Sensors and Actuators A: Physical, May 2025, Peer-reviewed

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• Exploring a New Era in Cell Engineering

  Ken-ichiro Kamei

  Cell Engineering Connect, 11 Oct. 2024

  
• Self-assembled hyaluronic acid nanomicelle for enhanced cascade cancer chemotherapy via self-sensitized ferroptosis.

  Jianbin Shi; Wenjing Ma; Jia Deng; Shunzhe Zheng; Fengli Xia; Xinying Liu; Ayumi Kikkawa; Kaho Tanaka; Ken-Ichiro Kamei; Chutong Tian

  Carbohydrate polymers, 01 Nov. 2024, Peer-reviewed, Corresponding author

  
• Dual-targeted nanoparticulate drug delivery systems for enhancing triple-negative breast cancer treatment.

  Shunzhe Zheng; Meng Li; Wenqian Xu; Jiaxin Zhang; Guanting Li; Hongying Xiao; Xinying Liu; Jianbin Shi; Fengli Xia; Chutong Tian; Ken-Ichiro Kamei

  Journal of controlled release : official journal of the Controlled Release Society, Jul. 2024, Peer-reviewed, Last author, Corresponding author

  
• Hybrid adipocyte-derived exosome nano platform for potent chemo-phototherapy in targeted hepatocellular carcinoma.

  Xinying Liu; Jiaxin Zhang; Shunzhe Zheng; Meng Li; Wenqian Xu; Jianbin Shi; Ken-Ichiro Kamei; Chutong Tian

  Journal of controlled release : official journal of the Controlled Release Society, Jun. 2024, Peer-reviewed, Corresponding author

  
• Ferroptosis inducers: A new frontier in cancer therapy.

  Wenjing Ma; Naiyuan Hu; Wenqian Xu; Linxi Zhao; Chutong Tian; Ken-Ichiro Kamei

  Bioorganic chemistry, May 2024, Peer-reviewed, Last author, Corresponding author

  
• Cellular sensing devices for assessing chemicals

  M. Aizawa; K. Kamei; T. Haruyama; E. Kobatake

  Annual Reports of the Research Reactor Institute, Kyoto University, 2001

  
• Novel microfluidic device integrated with a fluidic-capacitor to mimic heart beating for generation of functional liver organoids

  Jiaxu Wu; Yoshikazu Hirai; Ken-Ichiro Kamei; Toshiyuki Tsuchiya; Osamu Tabata

  Electronics and Communications in Japan, 01 Oct. 2019

  
• Evaluation of solvent releases from microfluidic devices made of cycloolefin polymer by temperature-desorption mass spectrometry

  Seiichiro Takahashi; Yutaka Mune; Akihiko Yamamuro; Akira Aiba; Kenji Hatakeyama; Ken-ichiro Kamei

  Journal of Micromechanics and Microengineering, 01 Jun. 2023

  
• A novel fixed-combination timolol-netarsudil-latanoprost ophthalmic solution for the treatment of glaucoma and ocular hypertension

  Tao Wang; Yunran Zhang; Meiling Chi; Chen Zhao; Linlin Cao; Chutong Tian; K. Kamei; Ying Zheng; Qikun Jiang

  Asian Journal of Pharmaceutical Sciences, Nov. 2022

  
• Recent progress in cancer therapy based on the combination of ferroptosis with photodynamic therapy

  Zeping Gao; Shunzhe Zheng; Ken-ichiro Kamei; Chutong Tian

  Acta Materia Medica, 18 Oct. 2022

  
• Super-acceleration of early drug development

  Ken

  Cancer Science, 2022

  
• Reverse Bioengineering of living systems for drug discovery

  Ken

  Cancer Science, 2022

  
• Microfluidic image cytometry.

  Kamei, K.; Sun, J.; Tseng, H.R.; Damoiseaux, R.

  Methods in molecular biology (Clifton, N.J.), 2011

  
• Modeling dry eye with an air-liquid interface in corneal epithelium-on-a-chip.

  Rodi Kado Abdalkader; Romanas Chaleckis; Takuya Fujita; Ken-Ichiro Kamei

  Scientific reports, 20 Feb. 2024, Peer-reviewed, Last author

  
• Multilayered Microfluidic Device for Controllable Flow Perfusion of Gut-Liver on a Chip

  Jiandong Yang; Satoshi Imamura; Yoshikazu Hirai; Ken Ichiro Kamei; Toshiyuki Tsuchiya; Osamu Tabata

  21st International Conference on Solid-State Sensors, Actuators and Microsystems, TRANSDUCERS 2021, 20 Jun. 2021

  
• Highly Accurate Measurement of Trans-Epithelial Electrical Resistance in Organ-on-a-Chip

  Takashi Miyazaki; Jiandong Yang; Satoshi Imamura; Yoshikazu Hirai; Ken Ichiro Kamei; Toshiyuki Tsuchiya; Osamu Tabata

  Proceedings of the IEEE International Conference on Micro Electro Mechanical Systems (MEMS), 25 Jan. 2021

  
• A design method of organ-on-a-chip with highly accurate measurement of trans-epithelial electrical resistance

  Takashi Miyazaki; Yoshikazu Hirai; Ken Ichiro Kamei; Toshiyuki Tsuchiya; Osamu Tabata

  IEEJ Transactions on Sensors and Micromachines, 2021

  
• Heart-liver on a chip integrated with a microelectrode array to monitor extracellular field potentials of cardiomyocytes

  Dongxiao Zhang; Yoshikazu Hirai; Ken Ichiro Kamei; Osamu Tabata; Toshiyuki Tsuchiya

  MicroTAS 2020 - 24th International Conference on Miniaturized Systems for Chemistry and Life Sciences, 2020

  
• Integrated gut-liver on a chip for modelling non-alcoholic fatty liver disease in vitro

  Jiandong Yang; Yoshikazu Hirai; Ken Ichiro Kamei; Toshiyuki Tsuchiya; Osamu Tabata

  23rd International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2019, 2019

  
• Fluidic-capacitor integrated microfluidic platform to mimic heart beating for generation of functional liver organoids

  Jiaxu Wu; Yoshikazu Hirai; Ken Ichiro Kamei; Toshiyuki Tsuchiya; Osamu Tabata

  22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2018, 2018

  
• Microfabrication of polydimethylsiloxane–parylene hybrid microelectrode array integrated into a multi-organ-on-a-chip

  Dongxiao Zhang; Jiandong Yang; Yoshikazu Hirai; Ken-ichiro Kamei; Osamu Tabata; Toshiyuki Tsuchiya

  Japanese Journal of Applied Physics, 15 Dec. 2022

  
• Cyclic Stretching Enhances Angiocrine Signals at Liver Bud Stage from hPSCs in 2-Dimensional Culture

  Koki Yoshimoto; Koichiro Maki; Taiji Adachi; Ken-ichiro Kamei

  Tissue Engineering Part A, 07 Dec. 2023, Peer-reviewed, Last author, Corresponding author

  
• Emerging platinum(IV) prodrug nanotherapeutics: A new epoch for platinum-based cancer therapy.

  Shunzhe Zheng; Guanting Li; Jianbin Shi; Xinying Liu; Meng Li; Zhonggui He; Chutong Tian; Ken-Ichiro Kamei

  Journal of controlled release : official journal of the Controlled Release Society, 23 Aug. 2023, Last author, Corresponding author

  
• Integrated-gut-liver-on-a-chip platform as an in vitro human model of non-alcoholic fatty liver disease.

  Jiandong Yang; Yoshikazu Hirai; Kei Iida; Shinji Ito; Marika Trumm; Shiho Terada; Risako Sakai; Toshiyuki Tsuchiya; Osamu Tabata; Ken-Ichiro Kamei

  Communications biology, 23 Mar. 2023, Last author, Corresponding author

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• Critical roles of linker length in determining the chemical and self-assembly stability of SN38 homodimeric nanoprodrugs.

  Xin Wang; Tian Liu; Yuetong Huang; Fudan Dong; Lingxiao Li; Jiaxuan Song; Shiyi Zuo; Zhengyang Zhu; Ken-Ichiro Kamei; Zhonggui He; Bingjun Sun; Jin Sun

  Nanoscale horizons, 30 Jan. 2023

  
• In vitro nonalcoholic fatty liver disease model with cyclo-olefin-polymer-based microphysiological systems

  Xiaopeng Wen; Koki Yoshimoto; Makoto Yamanaka; Shiho Terada; Ken-ichiro Kamei

  Organs-on-a-Chip, Nov. 2021, Last author, Corresponding author

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• Human blastoid from primed human embryonic stem cells

  Satoshi Imamura; Xiaopeng Wen; Shiho Terada; Akihisa Yamamoto; Kaori Mutsuda-Zapater; Kyoko Sawada; Koki Yoshimoto; Motomu Tanaka; Ken-ichiro Kamei

  26 Jun. 2022, Last author, Corresponding author

  
• Tumor-on-a-chip model for advancement of anti-cancer nano drug delivery system.

  Chutong Tian; Shunzhe Zheng; Xinying Liu; Ken-Ichiro Kamei

  Journal of nanobiotechnology, 20 Jul. 2022, Peer-reviewed, Last author, Corresponding author

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• Gut-liver-axis microphysiological system for studying cellular fluidic shear stress and inter-tissue interaction

  Jiandong Yang; Yoshikazu Hirai; Satoshi Imamura; Toshiyuki Tsuchiya; Osamu Tabata; Ken-ichiro Kamei

  Biomicrofluidics, 02 Feb. 2022, Peer-reviewed, Last author, Corresponding author

  
• An efficient simplified method for the generation of corneal epithelial cells from human pluripotent stem cells.

  Rodi Abdalkader; Ken-Ichiro Kamei

  Human cell, 12 May 2022, Peer-reviewed, Last author, Corresponding author

  
• Response of human induced pluripotent stem cells to terahertz radiation

  Takehiro Tachizaki; Reiko Sakaguchi; Shiho Terada; Ken Ichiro Kamei; Hideki Hirori

  2021 Conference on Lasers and Electro-Optics, CLEO 2021 - Proceedings, May 2021

  
• Heat treatment functionalizes hepatocyte-like cells derived from human embryonic stem cells

  Satoshi Imamura; Koki Yoshimoto; Shiho Terada; Ken-ichiro Kamei

  11 Mar. 2020

  
• Bi-phasic effect of gelatin in myogenesis and skeletal muscle regeneration.

  Xiaoling Liu; Er Zu; Xinyu Chang; Xiaowei Ma; Ziqi Wang; Xintong Song; Xiangru Li; Qing Yu; Ken-Ichiro Kamei; Toshihiko Hayashi; Kazunori Mizuno; Shunji Hattori; Hitomi Fujisaki; Takashi Ikejima; Dan Ohtan Wang

  Disease models & mechanisms, 01 Dec. 2021, Peer-reviewed

  
• Triglyceride-Mimetic Structure-Gated Prodrug Nanoparticles for Smart Cancer Therapy

  Chutong Tian; Jingjing Guo; Yifan Miao; Shunzhe Zheng; Bingjun Sun; Mengchi Sun; Qing Ye; Wenxue Liu; Shuang Zhou; Ken-ichiro Kamei; Zhonggui He; Jin Sun

  Journal of Medicinal Chemistry, 01 Nov. 2021, Peer-reviewed, Corresponding author

  
• Spatiotemporal determination of metabolite activities in the corneal epithelium on a chip

  Rodi Abdalkader; Romanas Chaleckis; Craig E. Wheelock; Ken-ichiro Kamei

  Experimental Eye Research, Aug. 2021, Peer-reviewed, Last author, Corresponding author

  
• Evaluation of the Effects of Solvents Used in the Fabrication of Microfluidic Devices on Cell Cultures

  Xiaopeng Wen; Seiichiro Takahashi; Kenji Hatakeyama; Ken-ichiro Kamei

  Micromachines, 12 May 2021, Peer-reviewed, Last author, Corresponding author

  
• Cyclo olefin polymer-based solvent-free mass-productive microphysiological systems

  Makoto Yamanaka; Xiaopeng Wen; Satoshi Imamura; Risako Sakai; Shiho Terada; Ken-ichiro Kamei

  Biomedical Materials, 25 Jun. 2020, Peer-reviewed, Last author, Corresponding author

  
• Untargeted LC-MS metabolomics for the analysis of micro-scaled extracellular metabolites from hepatocytes.

  Rodi Abdalkader; Romanas Chaleckis; Isabel Meister; Pei Zhang; Craig E Wheelock; Ken-Ichiro Kamei

  Analytical sciences : the international journal of the Japan Society for Analytical Chemistry, 18 Dec. 2020, Peer-reviewed, Last author

  
• Design strategy of electrode patterns based on finite element analysis in microfluidic device for Trans‐Epithelial Electrical Resistance (TEER) measurement

  Takashi Miyazaki; Yoshikazu Hirai; Ken-ichiro Kamei; Toshiyuki Tsuchiya; Osamu Tabata

  Electronics and Communications in Japan, 25 Nov. 2020, Peer-reviewed

  
• Terahertz pulse-altered gene networks in human induced pluripotent stem cells

  Takehiro Tachizaki; Reiko Sakaguchi; Shiho Terada; Ken-Ichiro Kamei; Hideki Hirori

  Optics Letters, 01 Nov. 2020, Peer-reviewed, Corresponding author

  
• Genetic Signatures of Evolution of the Pluripotency Gene Regulating Network across Mammals

  Yoshinori Endo; Ken-ichiro Kamei; Miho Inoue-Murayama; Rachel O'Neill

  Genome Biology and Evolution, 01 Oct. 2020, Peer-reviewed, Corresponding author

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• Recapitulation of Human Embryonic Heartbeat to Promote Differentiation of Hepatic Endoderm to Hepatoblasts

  Koki Yoshimoto; Nicolas Minier; Ji; ong Yang; Satoshi Imamura; Kaylene Stocking; Janmesh Patel; Shiho Terada; Yoshikazu Hirai; Ken-ichiro Kamei

  Frontiers in Bioengineering and Biotechnology, 08 Sep. 2020, Peer-reviewed, Last author, Corresponding author

  
• Randomness and optimality in enhanced DNA ligation with crowding effects

  Takaharu Y. Shiraki; Ken-ichiro Kamei; Yusuke T. Maeda

  Physical Review Research, 23 Mar. 2020, Peer-reviewed

  
• Multi-corneal barrier-on-a-chip to recapitulate eye blinking shear stress forces

  Rodi Abdalkader; Ken-ichiro Kamei

  Lab on a Chip, 2020, Peer-reviewed, Last author, Corresponding author

  
• Three-dimensional cultured liver-on-a-Chip with mature hepatocyte-like cells derived from human pluripotent stem cells

  Ken-ichiro Kamei; Momoko Yoshioka; Shiho Terada; Yumie Tokunaga; Yong Chen

  Biomedical Microdevices, Sep. 2019, Peer-reviewed, Lead author, Corresponding author

  
• Novel Microfluidic Device Integrated with a Fluidic-Capacitor to Mimic Heart Beating for Generation of Functional Liver Organoids

  Wu Jiaxu; Wu Jiaxu; 平井義和; 亀井謙一郎; 土屋智由; 田畑修

  電気学会論文誌 E, 2019, Peer-reviewed

  
• Genetic signatures of lipid metabolism evolution in Cetacea since the divergence from terrestrial ancestor.

  Endo Y; Kamei KI; Inoue-Murayama M

  Journal of evolutionary biology, Nov. 2018, Peer-reviewed, Corresponding author

  
• Nano-on-micro fibrous extracellular matrices for scalable expansion of human ES/iPS cells

  Li Liu; Ken-ichiro Kamei; Momoko Yoshioka; Minako Nakajima; Junjun Li; Nanae Fujimoto; Shiho Terada; Yumie Tokunaga; Yoshie Koyama; Hideki Sato; Kouichi Hasegawa; Norio Nakatsuji; Yong Chen

  BIOMATERIALS, Apr. 2017, Peer-reviewed

  
• Integrated heart/cancer on a chip to reproduce the side effects of anti-cancer drugs: In vitro

  Ken-Ichiro Kamei; Yoshiki Kato; Yoshikazu Hirai; Shinji Ito; Junko Satoh; Atsuko Oka; Toshiyuki Tsuchiya; Yong Chen; Osamu Tabata

  RSC Advances, 2017, Peer-reviewed

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• Microfluidic-Nanofiber Hybrid Array for Screening of Cellular Microenvironments

  Kamei, K; Mashimo, Y; Yoshioka, M; Tokunaga, Y; Fockenberg, C; Terada, S; Koyama, Y; Nakajima, M; Shibata-Seki, T; Liu, L; Akaike, T; Kobatake, E; How, SE; Uesugi, M; Chen, Y

  Small, 2017, Peer-reviewed

  
• Multiplex artificial cellular microenvironment array

  Yasumasa Mashimo; Momoko Yoshioka; Yumie Tokunaga; Christopher Fockenberg; Shiho Terada; Yoshie Koyama; Teiko Shibata-Seki; Koki Yoshimoto; Risako Sakai; Hayase Hakariya; Li Liu; Toshihiro Akaike; Eiry Kobatake; Siew-Eng How; Motonari Uesugi; Yong Chen; Ken-ichiro Kamei

  Journal of Visualized Experiments, 2017, Peer-reviewed

  
• Characterization of Phenotypic and Transcriptional Differences in Human Pluripotent Stem Cells under 2D and 3D Culture Conditions

  Ken-ichiro Kamei; Yoshie Koyama; Yumie Tokunaga; Yasumasa Mashimo; Momoko Yoshioka; Christopher Fockenberg; Rowland Mosbergen; Othmar Korn; Christine Wells; Yong Chen

  Advanced Healthcare Materials, Nov. 2016, Peer-reviewed

  
• Development of a Body-on-a-Chip Using 3-D Microstructuring Technique

  Kato Yoshiki; Hirai Yoshikazu; Kamei Ken-ichiro; Tsuchiya Toshiyuki; Tabata Osamu

  IEEJ Transactions on Sensors and Micromachines, 2016, Peer-reviewed

  
• Directing and Boosting of Cell Migration by the Entropic Force Gradient in Polymer Solution

  Tatsuya Fukuyama; Ariko Fuke; Megumi Mochizuki; Ken-ichiro Kamei; Yusuke T. Maeda

  LANGMUIR, Nov. 2015, Peer-reviewed

  
• Oscillation and collective conveyance of water-in-oil droplets by microfluidic bolus flow

  Takuya Ohmura; Masatoshi Ichikawa; Ken-ichiro Kamei; Yusuke T. Maeda

  Applied Physics Letters, 17 Aug. 2015, Peer-reviewed

  
• 3D printing of soft lithography mold for rapid production of polydimethylsiloxane-based microfluidic devices for cell stimulation with concentration gradients

  Ken-ichiro Kamei; Yasumasa Mashimo; Yoshie Koyama; Christopher Fockenberg; Miyuki Nakashima; Minako Nakajima; Junjun Li; Yong Chen

  BIOMEDICAL MICRODEVICES, Apr. 2015, Peer-reviewed

  
• Microfluidic Image Cytometry for Single-Cell Phenotyping of Human Pluripotent Stem Cells.

  Mashimo Y; Kamei K

  Methods in molecular biology (Clifton, N.J.), 2015, Peer-reviewed

  
• Nanofibrous gelatin substrates for long-term expansion of human pluripotent stem cells

  Liu, L.; Yoshioka, M.; Nakajima, M.; Ogasawara, A.; Liu, J.; Hasegawa, K.; Li, S.; Zou, J.; Nakatsuji, N.; Kamei, K.-I.; Chen, Y.

  Biomaterials, 2014, Peer-reviewed

  
• Cutting-Edge Microfabricated Biomedical Tools for Human Pluripotent Stem Cell Research

  Ken-ichiro Kamei

  Journal of Laboratory Automation, Dec. 2013, Peer-reviewed

  
• Cutting-Edge Microfabricated Biomedical Tools for Human Pluripotent Stem Cell Research

  Ken-ichiro Kamei

  JALA, Dec. 2013, Peer-reviewed

  
• Fabrication of gelatin nanopatterns for cell culture studies

  S. S. Li; J. Shi; L. Liu; J. J. Li; L. M. Jiang; C. X. Luo; K. Kamei; Y. Chen

  MICROELECTRONIC ENGINEERING, Oct. 2013, Peer-reviewed

  
• Localized cell stimulation by nitric oxide using a photoactive porous coordination polymer platform

  Stephane Diring; Dan Ohtan Wang; Chiwon Kim; Mio Kondo; Yong Chen; Susumu Kitagawa; Ken-ichiro Kamei; Shuhei Furukawa

  NATURE COMMUNICATIONS, Oct. 2013, Peer-reviewed

  
• Integration of porous coordination polymers and gold nanorods into core-shell mesoscopic composites toward light-induced molecular release

  Kira Khaletskaya; Julien Reboul; Mikhail Meilikhov; Masashi Nakahama; Stéphane Diring; Masahiko Tsujimoto; Seiji Isoda; Franklin Kim; Ken-Ichiro Kamei; Roland A. Fischer; Susumu Kitagawa; Shuhei Furukawa

  Journal of the American Chemical Society, 31 Jul. 2013, Peer-reviewed

  
• Integration of porous coordination polymers and gold nanorods into core-shell mesoscopic composites toward light-induced molecular release

  Kira Khaletskaya; Julien Reboul; Mikhail Meilikhov; Masashi Nakahama; Stéphane Diring; Masahiko Tsujimoto; Seiji Isoda; Franklin Kim; Ken-Ichiro Kamei; Roland A. Fischer; Susumu Kitagawa; Shuhei Furukawa

  Journal of the American Chemical Society, 31 Jul. 2013, Peer-reviewed

  
• Phenotypic and Transcriptional Modulation of Human Pluripotent Stem Cells Induced by Nano/Microfabrication Materials

  Ken-Ichiro Kamei; Yoshikazu Hirai; Momoko Yoshioka; Yoshihide Makino; Qinghua Yuan; Minako Nakajima; Yong Chen; Osamu Tabata

  Advanced Healthcare Materials, Feb. 2013, Peer-reviewed

  
• Phenotypic and Transcriptional Modulation of Human Pluripotent Stem Cells Induced by Nano/Microfabrication Materials

  Ken-Ichiro Kamei; Yoshikazu Hirai; Momoko Yoshioka; Yoshihide Makino; Qinghua Yuan; Minako Nakajima; Yong Chen; Osamu Tabata

  Advanced Healthcare Materials, Feb. 2013, Peer-reviewed

  
• Body on a chip: Re-creation of a living system in vitro

  Ken-Ichiro Kamei; Yoshikazu Hirai; Osamu Tabata

  IEEE Nanotechnology Magazine, 2013, Peer-reviewed

  
• Chemically-defined scaffolds created with electrospun synthetic nanofibers to maintain mouse embryonic stem cell culture under feeder-free conditions

  Liu, L.; Yuan, Q.; Shi, J.; Li, X.; Jung, D.; Wang, L.; Yamauchi, K.; Nakatsuji, N.; Kamei, K.-i.; Chen, Y.

  Biotechnology Letters, 2012, Peer-reviewed

  
• mESC and hiPSC Proliferation on Negative Photoresists for Microfluidics

  Yoshikazu Hirai; Ken-ichiro Kamei; Yoshihide Makino; Li Liu; Qinghua Yuan; Yong Chen; Osamu Tabata

  EUROSENSORS XXV, 2011, Peer-reviewed

  
• Integrated and diffusion-based micro-injectors for open access cell assays

  Xin Li; Li Liu; Li Wang; Ken-ichiro Kamei; Qinghua Yuan; Fan Zhang; Jian Shi; Akihiro Kusumi; Min Xie; Zhenjie Zhao; Yong Chen

  LAB ON A CHIP, 2011, Peer-reviewed

  
• Delivery of intact transcription factor by using self-assembled supramolecular nanoparticles

  Liu, Y.; Wang, H.; Kamei, K.-I.; Yan, M.; Chen, K.-J.; Yuan, Q.; Shi, L.; Lu, Y.; Tseng, H.-R.

  Angewandte Chemie - International Edition, 2011, Peer-reviewed

  
• Integrated and diffusion-based micro-injectors for open access cell assays

  Xin Li; Li Liu; Li Wang; Ken-ichiro Kamei; Qinghua Yuan; Fan Zhang; Jian Shi; Akihiro Kusumi; Min Xie; Zhenjie Zhao; Yong Chen

  LAB ON A CHIP, 2011, Peer-reviewed

  
• A Rapid Pathway Toward a Superb Gene Delivery System: Programming Structural and Functional Diversity into a Supramolecular Nanoparticle Library

  Hao Wang; Kan Liu; Kuan-Ju Chen; Yujie Lu; Shutao Wang; Wei-Yu Lin; Feng Guo; Ken-ichiro Kamei; Yi-Chun Chen; Minori Ohashi; Mingwei Wang; Mitch Andre Garcia; Xing-Zhong Zhao; Clifton K. -F. Shen; Hsian-Rong Tseng

  ACS NANO, Oct. 2010, Peer-reviewed

  
• A Rapid Pathway Toward a Superb Gene Delivery System: Programming Structural and Functional Diversity into a Supramolecular Nanoparticle Library

  Hao Wang; Kan Liu; Kuan-Ju Chen; Yujie Lu; Shutao Wang; Wei-Yu Lin; Feng Guo; Ken-ichiro Kamei; Yi-Chun Chen; Minori Ohashi; Mingwei Wang; Mitch Andre Garcia; Xing-Zhong Zhao; Clifton K. -F. Shen; Hsian-Rong Tseng

  ACS NANO, Oct. 2010, Peer-reviewed

  
• A Microfluidic Platform for Systems Pathology: Multiparameter Single-Cell Signaling Measurements of Clinical Brain Tumor Specimens

  Jing Sun; Michael D. Masterman-Smith; Nicholas A. Graham; Jing Jiao; Jack Mottahedeh; Dan R. Laks; Minori Ohashi; Jason DeJesus; Ken-ichiro Kamei; Ki-Bum Lee; Hao Wang; Zeta T. F. Yu; Yi-Tsung Lu; Shuang Hou; Keyu Li; Max Liu; Nangang Zhang; Shutao Wang; Brigitte Angenieux; Eduard Panosyan; Eric R. Samuels; Jun Park; Dirk Williams; Vera Konkankit; David Nathanson; R. Michael van Dam; Michael E. Phelps; Hong Wu; Linda M. Liau; Paul S. Mischel; Jorge A. Lazareff; Harley I. Kornblum; William H. Yong; Thomas G. Graeber; Hsian-Rong Tseng

  CANCER RESEARCH, Aug. 2010, Peer-reviewed

  
• A Microfluidic Platform for Systems Pathology: Multiparameter Single-Cell Signaling Measurements of Clinical Brain Tumor Specimens

  Jing Sun; Michael D. Masterman-Smith; Nicholas A. Graham; Jing Jiao; Jack Mottahedeh; Dan R. Laks; Minori Ohashi; Jason DeJesus; Ken-ichiro Kamei; Ki-Bum Lee; Hao Wang; Zeta T. F. Yu; Yi-Tsung Lu; Shuang Hou; Keyu Li; Max Liu; Nangang Zhang; Shutao Wang; Brigitte Angenieux; Eduard Panosyan; Eric R. Samuels; Jun Park; Dirk Williams; Vera Konkankit; David Nathanson; R. Michael van Dam; Michael E. Phelps; Hong Wu; Linda M. Liau; Paul S. Mischel; Jorge A. Lazareff; Harley I. Kornblum; William H. Yong; Thomas G. Graeber; Hsian-Rong Tseng

  CANCER RESEARCH, Aug. 2010, Peer-reviewed

  
• Compensatory hypertrophy induced by ventricular cardiomyocyte-specific COX-2 expression in mice

  John M. Streicher; Kenichiro Kamei; Tomo-o Ishikawa; Harvey Herschman; Yibin Wang

  JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY, Jul. 2010, Peer-reviewed

  
• A differential cell capture assay for evaluating antibody interactions with cell surface targets

  David J. Sherman; Vania E. Kenanova; Eric J. Lepin; Katelyn E. McCabe; Ken-ichiro Kamei; Minori Ohashi; Shutao Wang; Hsian-Rong Tseng; Anna M. Wu; Christian P. Behrenbruch

  ANALYTICAL BIOCHEMISTRY, Jun. 2010, Peer-reviewed

  
• A differential cell capture assay for evaluating antibody interactions with cell surface targets

  David J. Sherman; Vania E. Kenanova; Eric J. Lepin; Katelyn E. McCabe; Ken-ichiro Kamei; Minori Ohashi; Shutao Wang; Hsian-Rong Tseng; Anna M. Wu; Christian P. Behrenbruch

  ANALYTICAL BIOCHEMISTRY, Jun. 2010, Peer-reviewed

  
• Selective Inhibition of Human Brain Tumor Cells through Multifunctional Quantum-Dot-Based siRNA Delivery

  Jongjin Jung; Aniruddh Solanki; Kevin A. Memoli; Ken-ichiro Kamei; Hiyun Kim; Michael A. Drahl; Lawrence J. Williams; Hsian-Rong Tseng; KiBum Lee

  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2010, Peer-reviewed

  
• Microfluidic image cytometry for quantitative single-cell profiling of human pluripotent stem cells in chemically defined conditions

  Ken-ichiro Kamei; Minori Ohashi; Eric Gschweng; Quinn Ho; Jane Suh; Jinghua Tang; Zeta Tak For Yu; Amander T. Clark; April D. Pyle; Michael A. Teitell; Ki-Bum Lee; Owen N. Witte; Hsian-Rong Tseng

  LAB ON A CHIP, 2010, Peer-reviewed

  
• A small library of DNA-encapsulated supramolecular nanoparticles for targeted gene delivery

  Hao Wang; Kuan-Ju Chen; Shutao Wang; Minori Ohashi; Ken-ichiro Kamei; Jing Sun; Ji Hoon Ha; Kan Liu; Hsian-Rong Tseng

  CHEMICAL COMMUNICATIONS, 2010, Peer-reviewed

  
• Microfluidic image cytometry for quantitative single-cell profiling of human pluripotent stem cells in chemically defined conditions

  Ken-ichiro Kamei; Minori Ohashi; Eric Gschweng; Quinn Ho; Jane Suh; Jinghua Tang; Zeta Tak For Yu; Amander T. Clark; April D. Pyle; Michael A. Teitell; Ki-Bum Lee; Owen N. Witte; Hsian-Rong Tseng

  LAB ON A CHIP, 2010, Peer-reviewed

  
• Selective Inhibition of Human Brain Tumor Cells through Multifunctional Quantum-Dot-Based siRNA Delivery

  Jongjin Jung; Aniruddh Solanki; Kevin A. Memoli; Ken-ichiro Kamei; Hiyun Kim; Michael A. Drahl; Lawrence J. Williams; Hsian-Rong Tseng; KiBum Lee

  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2010, Peer-reviewed

  
• Integrated microfluidic devices for combinatorial cell-based assays

  Zeta Tak For Yu; Ken-ichiro Kamei; Hiroko Takahashi; Chengyi Jenny Shu; Xiaopu Wang; George Wenfu He; Robert Silverman; Caius G. Radu; Owen N. Witte; Ki-Bum Lee; Hsian-Rong Tseng

  BIOMEDICAL MICRODEVICES, Jun. 2009, Peer-reviewed

  
• An integrated microfluidic chip for parallel culture and multiparametric analysis of murine and human cells

  Z. T. F. Yu; K. Kamei; H. Takahashi; C. J. Shu; G. W. He; R. W. Silverman; C. G. Radu; O. N. Witte; K.-B. Lee; H.-R. Tseng; These authors contributed equally to this wor

  Biomed. Microdev., 11, 547-555 (2009), 2009, Peer-reviewed

  
• A Supramolecular Approach for Preparation of Size-Controlled Nanoparticles

  Hao Wang; Shutao Wang; Helen Su; Kuan-Ju Chen; Amanda Lee Armijo; Wei-Yu Lin; Yanju Wang; Jing Sun; Ken-ichiro Kamei; Johannes Czernin; Caius G. Radu; Hsian-Rong Tseng

  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2009, Peer-reviewed

  
• Three-Dimensional Nanostructured Substrates toward Efficient Capture of Circulating Tumor Cells

  Shutao Wang; Hao Wang; Jing Jiao; Kuan-Ju Chen; Gwen E. Owens; Ken-ichiro Kamei; Jing Sun; David J. Sherman; Christian P. Behrenbruch; Hong Wu; Hsian-Rong Tseng

  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2009, Peer-reviewed

  
• An integrated microfluidic culture device for quantitative analysis of human embryonic stem cells

  Ken-ichiro Kamei; Shuling Guo; Zeta Tak For Yu; Hiroko Takahashi; Eric Gschweng; Carol Suh; Xiaopu Wang; Jinghua Tang; Jami McLaughlin; Owen N. Witte; Ki-Bum Lee; Hsian-Rong Tseng

  LAB ON A CHIP, 2009, Peer-reviewed

  
• A Supramolecular Approach for Preparation of Size-Controlled Nanoparticles

  Hao Wang; Shutao Wang; Helen Su; Kuan-Ju Chen; Amanda Lee Armijo; Wei-Yu Lin; Yanju Wang; Jing Sun; Ken-ichiro Kamei; Johannes Czernin; Caius G. Radu; Hsian-Rong Tseng

  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2009, Peer-reviewed

  
• An integrated microfluidic culture device for quantitative analysis of human embryonic stem cells

  Ken-ichiro Kamei; Shuling Guo; Zeta Tak For Yu; Hiroko Takahashi; Eric Gschweng; Carol Suh; Xiaopu Wang; Jinghua Tang; Jami McLaughlin; Owen N. Witte; Ki-Bum Lee; Hsian-Rong Tseng

  LAB ON A CHIP, 2009, Peer-reviewed

  
• Three-Dimensional Nanostructured Substrates toward Efficient Capture of Circulating Tumor Cells

  Shutao Wang; Hao Wang; Jing Jiao; Kuan-Ju Chen; Gwen E. Owens; Ken-ichiro Kamei; Jing Sun; David J. Sherman; Christian P. Behrenbruch; Hong Wu; Hsian-Rong Tseng

  ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2009, Peer-reviewed

  
• A microfluidic platform for sequential ligand labeling and cell binding analysis

  Guodong Sui; Cheng-Chung Lee; Ken-Ichiro Kamei; Hua-Jung Li; Jin-Yi Wang; Jun Wang; Harvey R. Herschman; Hsian-Rong Tseng

  BIOMEDICAL MICRODEVICES, Jun. 2007, Peer-reviewed

  
• Transgenic mouse for conditional, tissue-specific cox-2 overexpression

  K Kamei; T Ishikawa; HR Herschman

  GENESIS, Apr. 2006, Peer-reviewed

  
• The construction of endothelial cellular biosensing system for the control of blood pressure drugs

  K Kamei; T Haruyama; M Mie; Y Yanagida; M Aizawa; E Kobatake

  BIOSENSORS & BIOELECTRONICS, Apr. 2004, Peer-reviewed

  
• Construction and use of an electrochemical NO sensor in a cell-based assessing system

  K Kamei; M Mie; Y Yanagida; M Aizawa; E Kobatake

  SENSORS AND ACTUATORS B-CHEMICAL, Apr. 2004, Peer-reviewed

  
• Construction of cell based assessing system for chemicals on immune regulation using electrochemical NO sensor

  K. Kamei; M. Mie; Y. Yanagida; M. Aizawa; E. Kobatake

  Sens. Actuat. B: Chemical, 96, 106-112 (2004), 2004, Peer-reviewed

  
• Development of immune cellular biosensing system for assessing chemicals on inducible nitric oxide synthase signaling activator

  K Kamei; T Haruyama; M Mie; Y Yanagida; M Aizawa; E Kobatake

  ANALYTICAL BIOCHEMISTRY, Sep. 2003, Peer-reviewed

  
• Cellular biosensing system for assessing immunomodulating effects on the inducible nitric oxide synthase (iNOS) cascade

  K Kamei; T Haruyama; M Mie; Y Yanagida; E Kobatake; M Aizawa

  BIOTECHNOLOGY LETTERS, Feb. 2003, Peer-reviewed

  
• Cellular sensing devices for assessing chemicals

  M Aizawa; K Kamei; T Haruyama; E Kobatake

  PROCEEDINGS OF THE 23RD ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY, VOLS 1-4, 2001, Peer-reviewed

  
• Electrochemical nitric oxide (NO) sensing system with spin-trap reagent PTIO

  T Haruyama; K Kamei; E Kobatake; Y Yanagida; M Aizawa

  TECHNICAL DIGEST OF THE SEVENTH INTERNATIONAL MEETING ON CHEMICAL SENSORS, 1998, Peer-reviewed

  
• In vitro culture at 39 °C during hepatic maturation of human ES cells facilitates hepatocyte-like cell functions.

  Satoshi Imamura; Koki Yoshimoto; Shiho Terada; Kaho Takamuro; Ken-Ichiro Kamei

  Scientific reports, 25 Mar. 2022, Peer-reviewed, Last author, Corresponding author

  
• Generation and gene expression profiles of Grevy's zebra induced Pluripotent Stem Cells.

  Yoshinori Endo; Ken-Ichiro Kamei; Koichi Hasegawa; Keisuke Okita; Hideyuki Ito; Shiho Terada; Miho Inoue-Murayama

  Stem cells and development, 22 Mar. 2022, Peer-reviewed, Last author

  
• Nanocasting of fibrous morphology on a substrate for long-term propagation of human induced pluripotent stem cells.

  Sisi Li; Momoko Yoshioka; Junjun Li; Li Liu; Shixin Ye; Ken-Ichiro Kamei; Yong Chen

  Biomedical materials (Bristol, England), 18 Feb. 2022, Peer-reviewed

  

Misc.

• 熱可逆性ハイドロゲルを用いた人工胚盤胞の創出 : 第46回研究会 優秀研究賞—Blastoid generation by using thermoreversible hydrogels

  今村 聡; 文 小鵬; 寺田 志穂; 山本 暁久; 睦田 Zapater 香織; 澤田 杏子; 吉本 昂希; 田中 求; 亀井 謙一郎

  化学とマイクロ・ナノシステム = Journal of the Society for Chemistry and Micro-Nano Systems : 化学とマイクロ・ナノシステム研究会誌, Mar. 2023

  
• Fluorescence spectrum measurement of NV center in a microfluidic device

  舌雅也; 渡辺嵩都; 四竈泰一; 亀井謙一郎; 土屋智由; 田畑修; 平井義和

  応用物理学会秋季学術講演会講演予稿集(CD-ROM), 2022

  
• リバースバイオエンジニアリングによる生体再構成への挑戦

  亀井 謙一郎

  日本生物工学会大会講演要旨集, Oct. 2022

  
• Blastoid derived from primed human pluripotent stem cells

  今村聡; 文小鵬; 寺田志穂; 吉本昂希; 亀井謙一郎

  組織培養研究(Web), 2022

  
• Development of Body-on-a-Chip

  吉本昂希; 亀井謙一郎

  Chemical Sensors, 2021

  
• 「まばたき」も再現する角膜・オン・チップ

  亀井 謙一郎

  バイオサイエンスとインダストリー, Jan. 2022

  
• 内胚葉細胞から肝芽細胞の分化過程における力学刺激の影響の解析

  吉本昂希; 吉本昂希; 吉本昂希; 今村聡; 寺田志穂; 亀井謙一郎

  日本再生医療学会総会(Web), 2021

  
• VUV接合によるシクロオレフィンポリマー組織チップ

  高橋誠一郎; 山中誠; 畠山健治; 文小鵬; 寺田志穂; 亀井謙一郎

  化学とマイクロ・ナノシステム学会研究会講演要旨集, 2021

  
• 心臓拍動を模倣した圧力刺激印加による肝オルガノイド成熟化を目指すマイクロ流体デバイス

  三浦大知; 平井義和; 亀井謙一郎; 土屋智由

  化学とマイクロ・ナノシステム学会研究会講演要旨集, 2021

  
• リバースバイオエンジニアリングによる生体再構成と創薬への応用

  亀井 謙一郎

  日本癌学会総会記事, 2021

  
• 新技術による薬剤学維新2020 マイクロ・ナノ工学による生体システム再構築への挑戦

  亀井 謙一郎

  日本薬剤学会年会講演要旨集, May 2020

  
• Kinetics of length-selective and optimal DNA growth under molecular crowding

  白木天晴; 亀井謙一郎; 前多裕介

  日本物理学会講演概要集(CD-ROM), 2020

  
• Analysis of TEER measurement error depending on electrode patterns using finite element analysis

  宮崎貴史; 平井義和; 亀井謙一郎; 土屋智由; 田畑修

  電気学会全国大会講演論文集(CD-ROM), 2020

  
• 非アルコール性脂肪性肝疾患を再現する肝臓-小腸・オン・チップ

  亀井謙一郎; 楊建東; 飯田慶; 寺田志穂; 土屋智由; 田畑修; 平井義和

  化学とマイクロ・ナノシステム学会研究会講演要旨集, 2020

  
• Cell-based assay integrated with Body-on-a-Chip platforms

  亀井謙一郎

  日本化学会春季年会講演予稿集(CD-ROM), 2020

  
• Design of microelectrode array for transepithelial electrical resistance measurement based on electric current density analysis

  宮崎貴史; 平井義和; 亀井謙一郎; 田畑修; 田畑修; 土屋智由

  マイクロエレクトロニクスシンポジウム論文集, 2020

  
• Design Strategy of Electrode Patterns Based on Finite Element Analysis in Microfluidic Device for Trans-Epithelial Electrical Resistance (TEER) Measurement

  宮崎貴史; 平井義和; 亀井謙一郎; 土屋智由; 田畑修

  電気学会論文誌 E, 2020

  
• 細胞アッセイの将来の可能性 マイクロ・ナノ工学による生体システム再構築への挑戦

  亀井 謙一郎

  組織培養研究, Jun. 2019

  
• 有限要素解析を用いた経上皮電気抵抗測定マイクロ流体デバイス内電極形状の設計

  宮崎貴史; 平井義和; 亀井謙一郎; 土屋智由; 田畑修

  電気学会全国大会講演論文集(CD-ROM), 2019

  
• 分子共存による選択的DNA成長の統計力学

  白木天晴; 亀井謙一郎; 前多裕介

  日本物理学会講演概要集(CD-ROM), 2019

  
• 生体機能の再現を目指したbody-on-a-chip

  吉本昂希; 亀井謙一郎

  ファルマシア(Web), 2019

  
• マイクロ・ナノ工学による生体外ヒトモデル「ボディー・オン・チップ」

  亀井謙一郎

  CBI学会研究講演会, 2019

  
• シクロオレフィンポリマーを用いた組織チップ開発

  山中誠; 文小鵬; 寺田志穂; 亀井謙一郎

  化学とマイクロ・ナノシステム学会研究会講演要旨集, 2019

  
• 熱刺激によるヒト多能幹細胞由来肝実質細胞のCYP活性増強効果

  今村聡; 吉本昂希; 吉本昂希; 寺田志穂; 亀井謙一郎

  化学とマイクロ・ナノシステム学会研究会講演要旨集, 2019

  
• マイクロ流体デバイスを用いた物理刺激による多能性幹細胞から肝細胞様細胞への分化促進

  吉本昂希; 吉本昂希; 今村聡; 寺田志穂; 亀井謙一郎

  化学とマイクロ・ナノシステム学会研究会講演要旨集, 2019

  
• 野生動物保全を目的とした保全生物学コンソーシアムの構築

  金子武人; 亀井謙一郎; 大沼学; 中嶋信美; 木下こづえ; 福田智一; 村山美穂

  日本野生動物医学会大会・講演要旨集, 2019

  
• Improved Sensitivity of Ionic Liquid-Based Pressure Sensor Embedded in PDMS Microfluidic Devices

  辻勇亮; 平井義和; 亀井謙一郎; 土屋智由; 田畑修

  マイクロエレクトロニクスシンポジウム論文集, 2019

  
• A microfluidic device to investigate the effect of shear stress on metastasis

  植田啓太; 萩原健; 平井義和; 近藤純平; 井上正宏; 土屋智由; 亀井謙一郎; 田畑修

  日本機械学会マイクロ・ナノ工学シンポジウム講演論文集(CD-ROM), 2019

  
• 生体機能の再現を目指したbody-on-a-chip

  吉本 昂希; 亀井 謙一郎

  ファルマシア, 2019

  
• Improved sensitivity of ionic liquid-based pressure sensor for body-on-a-chip using simulation-based 3D lithography

  Yoshikazu Hirai; Yusuke Tsuji; Ken-Ichiro Kamei; Toshiyuki Tsuchiya; Osamu Tabata

  Proceedings of the IEEE International Conference on Micro Electro Mechanical Systems (MEMS), 24 Apr. 2018

  
• Fabrication of microfluidic device with integrated Ag/AgCl electrode for trans-epithelial electrical resistance measurement

  宮崎貴史; 平井義和; 亀井謙一郎; 土屋智由; 田畑修

  電気学会研究会資料, 2018

  
• 遺伝情報分子のライゲーションと選択的な成長

  白木天晴; 亀井謙一郎; 前多裕介

  日本物理学会講演概要集(CD-ROM), 2018

  
• マイクロ・ナノ工学による生体外「ヒト」モデル開発

  亀井謙一郎

  日本環境変異原学会大会プログラム・要旨集, 2018

  
• Fabrication of ionic liquid-based pressure sensor with high sensitivity utilizing three-dimensional lithography and its characterization

  TSUJI Yusuke; HIRAI Yoshikazu; KAMEI Ken-ichiro; TSUCHIYA Toshiyuki; TABATA Osamu

  The Proceedings of the Symposium on Micro-Nano Science and Technology, 2018

  
• 3次元組織の作り方 マイクロ・ナノ微細加工技術による3次元組織工学

  亀井 謙一郎

  組織培養研究, May 2017

  
• 心筋細胞外電位測定のためのPDMS埋め込み型電極アレイ

  大牧達矢; 平井義和; 亀井謙一郎; 土屋智由; 田畑修

  電気学会全国大会講演論文集(CD-ROM), 2017

  
• 心筋細胞外電位計測を目指したPDMS埋め込み型電極アレイの作製プロセス

  大牧達也; 平井義和; 平井義和; 亀井謙一郎; 土屋智由; 田畑修

  化学とマイクロ・ナノシステム学会研究会講演要旨集, 2017

  
• Body on a Chip:生体外ヒトモデルの開発とその応用

  亀井謙一郎

  応用物理学会秋季学術講演会講演予稿集(CD-ROM), 2017

  
• 再生医療へ向けたナノ繊維の新展開

  亀井謙一郎

  日本繊維機械学会年次大会研究発表論文集・講演要旨集, 2017

  
• 微小圧力計測を目的としたPDMS製イオン液体型圧力センサ

  辻勇亮; 中野優; 平井義和; 亀井謙一郎; 土屋智由; 田畑修

  化学とマイクロ・ナノシステム学会研究会講演要旨集, 2017

  
• 抗がん剤の副作用を再現する生体外ヒトモデルBody on a Chip

  亀井謙一郎; 平井義和; 加藤義基; 土屋智由; 田畑修

  バイオエンジニアリング講演会講演論文集(CD-ROM), 2017

  
• Sensitivity characterization of pressure sensor using ionic liquid by finite element analysis

  TSUJI Yusuke; NAKANO Yu; HIRAI Yoshikazu; KAMEI Ken-ichiro; TSUCHIYA Toshiyuki; TABATA Osamu

  The Proceedings of the Symposium on Micro-Nano Science and Technology, 2017

  
• Genetic Signatures of Lipid Metabolism Evolution in Cetacean. The 6th International Seminar on Biodiversity and Evolution

  Endo Y; Kamei K; Inoue-Murayama M

  Wildlife science by New Biologging studies. 2017年5月30日 京都大学(京都市）, 2017

  
• 人工細胞外微小環境の創出とヒトES/iPS細胞運命制御

  亀井謙一郎; 吉岡桃子; 小山芳江; 中島美幸; 徳永弓枝; 寺田志保; CHEN Yong

  再生医療, 2016

  
• 抗がん剤副作用を再現する生体外モデルBody on a Chipの開発

  亀井謙一郎

  CBI学会大会, 2016

  
• 抗がん剤副作用を再現する生体外モデルBody on a Chipの開発

  亀井謙一郎; 平井義和; 平井義和; 加藤義基; 土屋智由; 田畑修

  組織培養研究, 2016

  
• Microfluidic device to interconnect multiple organs via fluidic circulation: Towards body-on-a-chip

  Y. Kato; Y. Hirai; K. Kamei; T. Tsuchiya; O. Tabata

  2015 Transducers - 2015 18th International Conference on Solid-State Sensors, Actuators and Microsystems, TRANSDUCERS 2015, 05 Aug. 2015

  
• Creating "right" microenvironments for controlling stem cell phenotypes

  KAMEI KEN-ICHIRO; MASHIMO YASUMASA; YOSHIOKA MOMOKO; LIU LI; CHEN YONG

  組織培養研究, 31 Mar. 2015

  
• 抗がん剤副作用を生体外で再現するBody on a Chipの開発

  亀井謙一郎; 平井義和; 平井義和; 加藤義基; 土屋智由; 田畑修

  化学とマイクロ・ナノシステム学会研究会講演要旨集, 2015

  
• 3次元微細加工を応用したBody on a Chipの開発

  加藤義基; 平井義和; 亀井謙一郎; 土屋智由; 田畑修

  センサ・マイクロマシンと応用システムシンポジウム(CD-ROM), 2015

  
• 17pPSA-82 Reproduction of the periodic motion of a small droplet in a numerical simulation using lattice Boltzmann method

  Ohmura T.; Ichikawa M.; Kamei K.; Maeda Y.

  Meeting Abstracts of the Physical Society of Japan, 2015

  
• 灌流システムを搭載した副作用検査デバイス 〜ヒトES/iPS由来のBody on a chipを目指して〜

  加藤義基; 平井 義和; 亀井謙一郎; 土屋智由; 田畑修

  細胞アッセイ技術の現状と将来, Jan. 2015

  
• 21pAK-3 Periodic motion dynamics of microfluidic W/O droplets

  Ohmura T.; Kamei K.; Ichikawa M.; Maeda Y.

  Meeting Abstracts of the Physical Society of Japan, 2015

  
• Fibrous Architectures of Porous Coordination Polymers-Alumina Composites Fabricated by Coordination Replication

  Masashi Nakahama; Julien Reboul; Ken-ichiro Kamei; Susumu Kitagawa; Shuhei Furukawa

  CHEMISTRY LETTERS, Jul. 2014

  
• Bio-inspired microfluidic platform to control cell functions

  KAMEI KEN-ICHIRO; MASHIMO YASUMASA; KOYAMA YOSHIE; YOSHIOKA MOMOKO; NAKAJIMA MINAKO; FOCHENBERG CHRISTOPHER; CHEN YONG

  日本化学会講演予稿集, 12 Mar. 2014

  
• High-throughput screening platform of engineered cellular microenvironments for human pluripotent stem cells

  MASHIMO YASUMASA; KAMEI KEN-ICHIRO; FOCKENBERG CHRISTOPHER; LI LIU; NAKAJIMA MINAKO; YOSHIOKA MOMOKO; NAKATSUJI NORIO; CHEN YONG

  日本化学会講演予稿集, 12 Mar. 2014

  
• ナノファイバーを用いたヒト多能性幹細胞培養基材の開発

  亀井謙一郎; 劉莉; 吉岡桃子; 長谷川光一; 中辻憲夫; 陳勇

  再生医療, 2014

  
• ハイスループット・マイクロ流体デバイスを用いたヒトES/iPS細胞培養用ナノファイバー・スクリーニング

  眞下泰正; FOCKENBERG Chris; 小山芳江; 劉莉, 陳勇; 亀井謙一郎

  再生医療, 2014

  
• 光でNOを放出する新材料開発と細胞生物学への応用

  古川修平; 亀井謙一郎

  細胞工学, 2014

  
• 28aAD-11 Periodic motion dynamics of microfluidic W/O droplets

  Ohmura Takuya; Kamei Kenichiro; Ichikawa Masatoshi; Maeda Yusuke

  Meeting Abstracts of the Physical Society of Japan, 2014

  
• Localized cell stimulation by nitric oxide using a photoactive porous coordination polymer platform

  Stephane Diring; Dan Ohtan Wang; Chiwon Kim; Mio Kondo; Yong Chen; Susumu Kitagawa; Ken-ichiro Kamei; Shuhei Furukawa

  NATURE COMMUNICATIONS, Oct. 2013

  
• Collective motion of one-dimensional W/O droplet crystal in a microchannel

  Ohmura Takuya; Kamei Kenichiro; Ichikawa Masatoshi; Maeda Yusuke

  Meeting Abstracts of the Physical Society of Japan, 2013

  
• 一酸化窒素放出多孔性配位高分子の合成と結晶サイズ制御

  KIM Chiwon; DIRING Stephane; 亀井謙一郎; 古川修平; 北川進

  日本化学会講演予稿集, 2013

  
• 多孔性配位高分子を用いた生理活性分子の吸脱着制御

  中浜雅士; REBOUL Julien; 亀井謙一郎; 古川修平; 北川進

  日本化学会講演予稿集, 2013

  
• マイクロ流路における一次元液滴結晶の運動現象

  大村拓也; 亀井謙一郎; 市川正敏; 前多裕介

  日本物理学会講演概要集, 2013

  
• Spatiotemporally controlled release of nitric oxide from porous coordination polymers

  DIRING STEPHANE; WANG DAN OHTAN; KAMEI KEN-ICHIRO; FURUKAWA SHUHEI; KITAGAWA SUSUMU

  錯体化学会討論会講演要旨集, 01 Sep. 2012

  
• Evaluation of negative photoresists on phenotypes of human induced pluripotent stem cells (hiPSCs)

  K. Kamei; Yoshikazu Hirai; Y. Makino; L. Liu; Q. Yuan; M. Yoshioka; Y. Chen; Osamu Tabata

  The 7th IEEE International Conference on Nano/Micro Engineered and Molecular Systems, Mar. 2012

  
• Phenotypic modulation of pluripotent stem cells (PSCs) induced by microfabrication materials

  Ken Ichiro Kamei; Yoshikazu Hirai; Yoshihide Makino; Momoko Yoshioka; Li Liu; Minako Nakajima; Qinghua Yuan; Yong Chen; Osamu Tabata

  Proceedings of the 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2012, 01 Jan. 2012

  
• 多孔性錯体フレームワークを用いた生体活性分子の放出挙動の最適化

  中浜雅士; REBOUL Julien; 亀井謙一郎; 古川修平; 北川進

  錯体化学会討論会講演要旨集, 2012

  
• 錯体フレームワークを用いた光駆動型生体ガス放出材料

  KIM Chi Won; DIRING Stephane; 亀井謙一郎; 北川進; 古川修平

  日本化学会講演予稿集, 2012

  
• 錯体フレームワークと生体適合材料の融合による機能性細胞外マトリクスの構築

  中浜雅士; REBOUL Julien; 亀井謙一郎; 北川進; 古川修平

  日本化学会講演予稿集, 2012

  
• Evaluation of Negative Photoresists for Culturing Mouse and Human Pluripotent Stem Cells

  KAMEI KEN-ICHIRO; HIRAI YOSHIKAZU; MAKINO YOSHIHIDE; LIU LI; YUAN QINGHUA; CHEN YONG; TABATA OSAMU

  センサ・マイクロマシンと応用システムシンポジウム(CD-ROM), 26 Sep. 2011

  
• フォトレジスト基板のマウス・ヒト多能性幹細胞に与える影響の評価

  亀井謙一郎; 平井義和; 牧野圭秀; Li Liu; Qinghua Yuan; Yong Chen; 田畑修

  第28回「センサ・マイクロマシンと応用システム」シンポジウム, Sep. 2011

  
• Quantitative cytological feature analysis by microfluidic image cytometry reveals phenotypic differences among human pluripotent stem cell lines

  K.-i. Kamei; M. Ohashi; N.A. Graham; Y. Chen; A.T. Clark; O.N. Witte; T.G. Graeber; A.D. Pyle; H.-R. Tseng

  15th International Conference on Miniaturized Systems for Chemistry and Life Sciences 2011, MicroTAS 2011, 2011, Peer-reviewed

  
• Design and characterization of a biomedical device capable of pico-Ci level beta detection for the study of cell metabolism

  Zeta T. F. Yu; Nam T. Vu; Chengyi J. Shu; Ken-ichiro Kamei; Robert W. Silverman; Owen N. Witte; Caius G. Radu; Arion F. Chatziioannou; Hsian-Rong Tseng

  MEMS 2008: 21ST IEEE INTERNATIONAL CONFERENCE ON MICRO ELECTRO MECHANICAL SYSTEMS, TECHNICAL DIGEST, 2008

  
• A microfluidic culture system for screening of chemical defined conditions for human embryonic stem cells (hESCs)

  Ken Ichiro Kamei; Shuling Guo; Shuling Guo; Minori Ohashi; Zeta Tak For Yu; Eric Gschweng; Eric Gschweng; Jinghua Tang; Jami McLaughlin; Ki Bum Lee; Owen N. Witte; Owen N. Witte; Owen N. Witte; Owen N. Witte; Hsian Rong Tseng

  12th International Conference on Miniaturized Systems for Chemistry and Life Sciences - The Proceedings of MicroTAS 2008 Conference, 01 Jan. 2008

  
• Microfluidic image cytometry (MIC) technology for in vitro molecular diagnostics

  J. Sun; J. Sun; M. Ohashi; M. Ohashi; K. Kamei; K. Kamei; H. Wang; H. Wang; M. Masterman-Smith; Z. T F Yu; Z. T F Yu; H. I. Kornblum; P. S. Mischel; P. S. Mischel; H. R. Tseng; H. R. Tseng

  12th International Conference on Miniaturized Systems for Chemistry and Life Sciences - The Proceedings of MicroTAS 2008 Conference, 01 Jan. 2008

  
• Real-time monitoring glucose utilization in single cell using a cell culture chip with an embedded detector

  Zeta T F Yu; Zeta T F Yu; Nam T. Vu; Nam T. Vu; Ken Ichiro Kamei; Ken Ichiro Kamei; Canny Y; N Chang; Robert; W. Silverman; Robert W. Silverman; Richard Farrell; Kanai S. Shah; Michael E. Phelps; Michael E. Phelps; Caius G. Radu; Caius G. Radu; Arion F. Chatziioannou; Arion F. Chatziioannou; Hsian Rong Tseng; Hsian Rong Tseng

  12th International Conference on Miniaturized Systems for Chemistry and Life Sciences - The Proceedings of MicroTAS 2008 Conference, 01 Jan. 2008

  
• Design and characterization of a biomedical device capable of pico-Ci level beta detection for the study of cell metabolism

  Zeta T. F. Yu; Nam T. Vu; Chengyi J. Shu; Ken-ichiro Kamei; Robert W. Silverman; Owen N. Witte; Caius G. Radu; Arion F. Chatziioannou; Hsian-Rong Tseng

  MEMS 2008: 21ST IEEE INTERNATIONAL CONFERENCE ON MICRO ELECTRO MECHANICAL SYSTEMS, TECHNICAL DIGEST, 2008, Peer-reviewed

  
• The functional role of COX-2 and p38/MK2-mediated regulation in heart failure

  John M. Streicher; Ken-ichiro Kamei; Harvey Herschman; Yibin Wang

  CIRCULATION RESEARCH, Sep. 2006

  
• NOを細胞応答の指標とした薬剤評価系の構築

  亀井謙一郎; 三重正和; 柳田保子; 相沢益男; 小畠英理

  電気化学会大会講演要旨集, 25 Mar. 2003

  
• Assessment of blood pressure control drugs with cellular biosensing system.

  亀井謙一郎; 三重正和; 柳田保子; 小畠英理; 相沢益男

  日本化学会講演予稿集, 2002

  
• 神経作用物質評価のための細胞バイオセンシングシステムの構築

  亀井 謙一郎; 春山 哲也; 柳田 保子

  Proceedings of the Chemical Sensor Symposium, Apr. 2001

  
• 神経作用物質評価のための細胞バイオセンシングシステムの構築

  KAMEI KEN'ICHIRO; HARUYAMA TETSUYA; YANAGIDA YASUKO; KOBATAKE ERI; AIZAWA MASUO

  電気化学会大会講演要旨集, 2001

  
• 神経作用物質評価のための細胞バイオセンシングシステムの構築

  KAMEI KEN'ICHIRO; HARUYAMA TETSUYA; YANAGIDA YASUKO; KOBATAKE EIRI; AIZAWA MASUO

  Chem Sens, 2001

  
• 薬物刺激に応答する細胞バイオセンシングシステムの構築

  亀井謙一郎; 春山哲也; 柳田保子; 小畠英理; 相沢益男

  インテリジェント材料シンポジウム講演要旨集, 2001

  
• 電気化学NO検出を基盤とした細胞バイオセンシングシステム

  亀井 謙一郎; 春山 哲也; 小畠 英理

  Proceedings of the Chemical Sensor Symposium, Apr. 2000

  
• 電気化学NO検出を基盤とした細胞バイオセンシングシステム

  KAMEI KEN'ICHIRO; HARUYAMA TETSUYA; KOBATAKE EIRI; AIZAWA MASUO

  電気化学会大会講演要旨集, 2000

  
• 電気化学NO検出を基盤とした細胞バイオセンシングシステム

  KAMEI KEN'ICHIRO; HARUYAMA TETSUYA; KOBATAKE EIRI; AIZAWA MASUO

  Chem Sens, 2000

  
• Development of two types of in situ nitric oxide sensor with heat-treated CytC and radical scavenger

  HARUYAMA Tetsuya; KAMEI Kenichiro; KOBATAKE Eiry; AIZAWA Masuo

  電気学会研究会資料. CS, 化学センサシステム研究会, 06 Nov. 1998

  
• Construction of in situ NO sensor with radical scavenger.

  亀井謙一郎; 春山哲也; 柳田保子; 小畠英理; 相沢益男

  電気化学会大会講演要旨集, 1998

  
• Development of two types of in situ nitric oxide sensor with heat-treated CytC and radical scavenger.

  春山哲也; 亀井謙一郎; 小畠英理; 相沢益男

  電気学会化学センサシステム研究会資料, 1998

  

Presentations

• Artificial regulatory niche to control cell function

  Seoul Nanohealth Symposium 2011, 18 Nov. 2011, Yonsei University

  

Books and Other Publications

• Microfluidic Image Cytometry

  K. Kamei; J. Sun; H.-R. Tseng; R. Damoiseaux

  Methods Mol. Biol., Springer, 706, 191-206 (2011), 2011, Not refereed

  

Industrial Property Rights

• 特許第7246041号, 特開2020-074709, 特願2018-210069, 細胞培養チップ及びその製造方法

  山中 誠; 亀井 謙一郎

  
• 特許第7217521号, 特開2020-146015, 特願2019-048928, マイクロ流体デバイス

  亀井 謙一郎; 平井 義和; 田畑 修; 宮崎 貴史

  
• 特許第7107528号, 特開2020-099211, 特願2018-238405, 細胞培養容器

  福江 久美子; 亀井 謙一郎; 平井 義和; 田畑 修

  
• 特開2022-079964, 特願2020-190869, マイクロ流体デバイス、細胞培養システムおよび細胞培養方法

  亀井 謙一郎; ルデイアデイーブ アブドアルカーデイル

  
• 特開2022-038894, 特願2020-143603, 遺伝子発現制御装置および遺伝子発現制御方法

  立崎 武弘; 廣理 英基; 亀井 謙一郎; 坂口 怜子

  
• 特開2020-146015, 特願2019-048928, マイクロ流体デバイス

  亀井 謙一郎; 平井 義和; 田畑 修; 宮崎 貴史

  
• WO2020-095852, JP2019043128, 細胞培養チップ

  山中 誠; 亀井 謙一郎

  
• 特許第6024047号, 特開2013-247943, 特願2012-127580, 多能性幹細胞の培養方法及びそのための基材

  陳 勇; 亀井 謙一郎; 劉 莉

  
• WO2016-104541, JP2015085894, 内胚葉系細胞の製造方法、肝臓細胞の製造方法、膵臓細胞の製造方法、内胚葉系細胞の誘導促進剤、肝臓細胞の誘導促進キット、膵臓細胞の誘導促進キット、およびマイクロ流体デバイス

  亀井 謙一郎; 本田 桃子

  
• WO2016-068266, JP2015080641, 生分解性ポリマーを用いた3次元培養方法、及び細胞移植を可能にする培養基材

  亀井 謙一郎; 劉 莉; 中辻 憲夫; 陳 勇; 佐藤 秀樹; 鈴木 昌和

  
• WO2015-129673, JP2015055178, マイクロ流体デバイス及び細胞の微小3次元培養法

  亀井 謙一郎; 陳 勇

  
• WO2015-122478, JP2015053890, 活性エステル基を含む繊維製造用組成物及びその繊維を用いた細胞培養足場材料

  梅嵜 真紀子; 岸岡 高広; 西野 泰斗; 大谷 彩子; 亀井 謙一郎; 劉 莉; 陳 勇

  
• 特開2015-116174, 特願2013-263585, 細胞培養足場基材、マイクロ流体デバイス及びそれを用いたハイスループットナノファイバースクリーニング方法

  亀井 謙一郎; 眞下 泰正; 劉 莉; 陳 勇

  
• WO2014-196549, JP2014064789, ファイバー・オン・ファイバーを用いた細胞の3次元培養方法及びそのための基材

  亀井 謙一郎; 中辻 憲夫; 劉 莉

  
• 特表2011-512125, 特願2010-545255, マイクロ流体画像サイトメトリ

  ツェン シェンロン; 亀井 謙一郎; サン ジン; ミッセル; ポール エス; マスターマン‐スミス; ミカエル デー; ナサンソン; デイビッド エイ; ホァン テイファニー; ヴァン ダム; ミカエル; ベーレンブルック; クリスチャン; サーカリア; ショーン エム

  
• 特願UCLA Case No. 2011-887, Bioinformatic approach for multiparameter and single-cell signaling measurements

  T.G. Graeber; N. A. Graham; H. R. Tseng; K. Kamei

  
• 特開Publication No. WO/2009/100028, International Application No., Microfluidic Cell Culture Array for Drug Screening and Imaging Probe Discovery

  H. R. Tseng; K. Kamei; J. Sun; P. S. Mischel; M. Masterman-Smith; D. A. Nathanson; T. Huang; M. van Dam; C. Behrenbruch; S. B. Sarkaria

  
• 特開Publication No. WO/2008/079320, International Application No., Microfluidic platform for cell culture and assay

  H. R. Tseng; K. Kamei; T. F. Yu; S. Guo; O. On. Witte; C. Radu; J. Shu

  

Awards

• 27 May 2015

  Japan Tissue Culture Association, Young Investigator Award, The 88th Annual Meeting of Japan Tissue Culture Association
• 02 Jun. 2017

  IEEJ, 第73回電気学術振興賞（論文賞）
• 17 Feb. 2017

  文部科学省, ナノテクノロジープラットフォーム平成28年度「秀でた利用6大成果」

External funds: Kakenhi

• Bioactive gas pump-probe method elucidates the relationship of nitric oxide diffusion with vascular function

  Grant-in-Aid for Challenging Research (Pioneering)

  Medium-sized Section 28:Nano/micro science and related fields

  Kyoto University

  古川 修平

  From 09 Jul. 2021, To 31 Mar. 2024, Granted

  多孔性材料;一酸化窒素;ポンプ・プローブ法;ナノワイヤ

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-21K18192/
• Raptor on a chip with stem cells for the evaluation of environmental pollutants

  Grant-in-Aid for Scientific Research (B)

  Basic Section 39060:Conservation of biological resources-related

  National Institute for Environmental Studies

  片山 雅史

  From 01 Apr. 2021, To 31 Mar. 2024, Granted

  絶滅危惧種;iPS細胞;猛禽類;Boby on a chip;大量死;保全生物

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-21H02218/
• Gut-Liver-on-a-Chip to investigate the progression mechanisms of non-alcoholic fatty liver diseases

  Grant-in-Aid for Scientific Research (B)

  Basic Section 27040:Biofunction and bioprocess engineering-related

  Kyoto University

  亀井 謙一郎

  From 01 Apr. 2021, To 31 Mar. 2024, Granted

  非アルコール性脂肪肝炎;ヒト多能性幹細胞;マイクロ流体デバイス;組織チップ;病態モデル;非アルコール性脂肪肝疾患;オルガノイド;多組織チップ;肝臓;小腸;分化誘導;非アルコール性脂肪性肝疾患;センサ

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-21H01728/
• ゲノム・細胞情報に基づく国内希少動物の繁殖促進戦略

  Grant-in-Aid for Scientific Research (A)

  Medium-sized Section 39:Agricultural and environmental biology and related fields

  Kyoto University

  村山 美穂

  From 01 Apr. 2020, To 31 Mar. 2023, Granted

  絶滅危惧種;ゲノム;iPS細胞;生殖細胞;加齢

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-20H00420/
• "Body-on-a-chip" integrated recirculation system mimicking human body rhythms

  Grant-in-Aid for Scientific Research (B)

  Basic Section 28050:Nano/micro-systems-related

  Kyoto University

  Yoshikazu Hirai

  From 01 Apr. 2019, To 31 Mar. 2022, Project Closed

  Body on a Chip;組織チップ;マイクロ流体デバイス;圧力センサ;微細加工;グレースケールリソグラフィ;設計工学

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-19H02572/
• Japanese-German Joint Research on Real Time Monitoring Technology of Cellular Metabolism in Vitro Model Device

  Fund for the Promotion of Joint International Research (Fostering Joint International Research (B))

  Medium-sized Section 90:Biomedical engineering and related fields

  Kyoto University of Advanced Science;Kyoto University

  OSAMU TABATA

  From 09 Oct. 2018, To 31 Mar. 2022, Project Closed

  生体模倣システム;細胞代謝;マイクロシステム;量子センシング;リアルタイムモニタリング;オルガノイド;細胞;細胞微小環境モデル;生体外モデルデバイス;生体外モデル;メタボリックシンドローム;Analytic BoC;リアルタイム計測;磁気共鳴イメージング

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-18KK0306/
• Synthetic biology of self-replicating systems: Growth and evolution far from equilibrium

  Grant-in-Aid for Scientific Research (B)

  Kyushu University

  前多 裕介

  From 18 Jul. 2017, To 31 Mar. 2019, Discontinued

  生命の起源;化学進化;非平衡統計力学;ランダムネス;実験;数値計算;自己複製;自己複製系;進化;統計力学;物性実験;合成生物学

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-17KT0025/
• Molecular and dynamic basis of axon guidance by mechanical stimulation

  Grant-in-Aid for Challenging Research (Exploratory)

  Kyoto University

  MIneko Kengaku

  From 30 Jun. 2017, To 31 Mar. 2019, Project Closed

  軸索ガイダンス;ナノパターン;メカノバイオロジー;細胞密着;細胞接着

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-17K19453/
• Advanced 3D tissue engineering with microfluidic technology

  Grant-in-Aid for Scientific Research (B)

  Kyoto University

  Ken-ichiro Kamei

  From 01 Apr. 2017, To 31 Mar. 2020, Project Closed

  多能性幹細胞;マイクロ流体デバイス;オルガノイド;肝臓;分化;ヒト多能性幹細胞;成熟化;組織工学;幹細胞;血管網

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-17H02083/
• Body on a Chip as an in-vitro model of endangered animals

  Grant-in-Aid for Challenging Exploratory Research

  Kyoto University

  Ken-ichiro Kamei

  From 01 Apr. 2016, To 31 Mar. 2018, Project Closed

  Body on a Chip;iPS細胞;マイクロ流体デバイス;絶滅危惧種;動物保全;リプログラミング;分化;マイクロ・ナノデバイス;動物;細胞・組織;獣医学

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-16K14660/
• Heart Tissue Engineering: Integration of microfabrication technology and THz wave

  Grant-in-Aid for Challenging Exploratory Research

  Kyoto University

  Ken-ichiro Kamei

  From 01 Apr. 2014, To 31 Mar. 2017, Project Closed

  幹細胞;マイクロ流体デバイス;THz;組織工学;心筋細胞;細胞工学;iPS細胞;顕微鏡;テラヘルツ波;ヒトES/iPS細胞;心筋;分化誘導;成熟化

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-26560209/
• Body on a Chip: in vitro living model using human pluripotent stem cells

  Grant-in-Aid for Challenging Exploratory Research

  Kyoto University

  Kenichiro KAMEI

  From 01 Apr. 2012, To 31 Mar. 2014, Project Closed

  マイクロ流体デバイス;ヒト多能性幹細胞;組織工学;ヒトES/iPS細胞;幹細胞;Body on a Chip;3次元微小組織

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-24656502/
• in vitro artificial extracellular microenvironments to investigate the mechanisms of cell regulations

  Grant-in-Aid for Young Scientists (A)

  Kyoto University

  Ken-ichiro KAMEI

  From 01 Apr. 2011, To 31 Mar. 2013, Project Closed

  マイクロバイオシステム;ヒト ES/iPS 細胞;細胞外微小環境;ヒト多能性幹細胞;マイクロ流体デバイス;ナノファイバー;微細加工技術;細胞外微小環境因子;ハイスループット技術

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-23681028/
• To develop neural chips using hPSC-derived neurons for facilitating in-vitro investigations of neural networks by nanofibers

  Grant-in-Aid for Scientific Research (B)

  Kyoto University

  Yong CHEN

  From 01 Apr. 2010, To 31 Mar. 2013, Project Closed

  高分子機能材料;ナノファイバマトリクス;幹細胞工学;神経ネットワーク;ナノファイバーマトリクス;神経細胞ネットワーク;分化制御

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-22350104/
• in vitro human implantation model with the use of human PSC-derived blastoids

  Grant-in-Aid for Challenging Research (Pioneering)

  Medium-sized Section 27:Chemical engineering and related fields

  Kyoto University

  亀井 謙一郎

  From 30 Jun. 2023, To 31 Mar. 2026, Granted

  ヒト多能性幹細胞;着床;胚盤胞;マイクロ流体デバイス;組織チップ

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-23K17345/
• Construction of in vitro human liver disease model capable of real-time temperature mapping and its application to elucidation of disease mechanisms

  Grant-in-Aid for Scientific Research (A)

  Medium-sized Section 28:Nano/micro science and related fields

  Kyoto University of Advanced Science

  田畑 修

  From 01 Apr. 2023, To 31 Mar. 2027, Granted

  生体外ヒトモデル;量子温度センシング;非アルコール性脂肪性肝疾患;オルガノイド;マイクロ流体チップ

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-23H00260/

Education

Teaching subject(s)

• From 01 Apr. 2022, To 31 Mar. 2023

  ILAS Seminar

  Z001, Spring, Institute for Liberal Arts and Sciences, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Micro/bio system

  G206, Spring, Graduate School of Engineering, 2
• From Apr. 2012, To Mar. 2013

  Multidisciplinary and Multinational Seminar on Cell-Material Sciences

  Spring, 全学共通科目
• From Apr. 2013, To Mar. 2014

  Multidisciplinary and Multinational Seminar on Cell-Material Sciences

  Spring, 全学共通科目
• From Apr. 2014, To Mar. 2015

  Global Frontier in Life Science A

  Spring, 生命科学研究科
• From Apr. 2014, To Mar. 2015

  Integrated Cell-Material Sciences

  Fall, 全学共通科目
• From Apr. 2014, To Mar. 2015

  Multidisciplinary and Multinational Seminar on Cell-Material Sciences

  Spring, 全学共通科目
• From Apr. 2015, To Mar. 2016

  Global Frontier in Life Science A

  Spring, 生命科学研究科
• From Apr. 2015, To Mar. 2016

  Integrated Cell-Material Sciences

  Fall, 全学共通科目
• From Apr. 2016, To Mar. 2017

  Global Frontier in Life Science A

  Spring, 生命科学研究科
• From Apr. 2016, To Mar. 2017

  Finding global solutions to energy, environment and healthcare

  Fall, 全学共通科目
• From Apr. 2017, To Mar. 2018

  Global Frontier in Life Science A

  Spring, 生命科学研究科
• From Apr. 2017, To Mar. 2018

  Let's get together to solve global issue

  Fall, 全学共通科目
• From Apr. 2018, To Mar. 2019

  Global Frontier in Life Science A

  Spring, 生命科学研究科
• From Apr. 2018, To Mar. 2019

  Let's get together to solve global issue

  Fall, 全学共通科目
• From Apr. 2019, To Mar. 2020

  Global Frontier in Life Science A

  Spring, 生命科学研究科
• From Apr. 2019, To Mar. 2020

  Microsystem Engineering

  Fall, 工学研究科
• From Apr. 2020, To Mar. 2021

  Global Frontier in Life Science A

  Spring, 生命科学研究科
• From Apr. 2020, To Mar. 2021

  Micro/bio system

  Spring, 工学研究科
• From Apr. 2021, To Mar. 2022

  Global Frontier in Life Science A

  Spring, 生命科学研究科
• From Apr. 2021, To Mar. 2022

  ILAS Seminar : Research project design using cutting-edge biotechnology

  Spring, 全学共通科目
• From Apr. 2021, To Mar. 2022

  Micro/bio system

  Spring, 工学研究科

Administration

School management (title, position)

• From 01 Apr. 2022, To 31 Mar. 2023

  欧州拠点アドバイザーミーティング メンバー

Faculty management (title, position)

• From 01 Apr. 2021, To 31 Jan. 2022

  高等研究院物質―細胞統合システム拠点主任研究者会議議長