@article{CTT100916696, author = {Maho Kaminaga and Shuta Otomo and Seisyu Tsunozaki and Tetsuya Kadonosono and Toru Omata}, title = {Fabrication of a Cancer Cell Aggregate Culture Device That Facilitates Observations of Nutrient and Oxygen Gradients}, journal = {Micromachines (Basel)}, year = 2024, } @article{CTT100864498, author = {Maho Kaminaga and Tadashi Ishida and Toru Omata}, title = {Microvalve with Trapezoid-Shaped Cross-Section for Deep Microchannels}, journal = {Micromachines}, year = 2021, } @article{CTT100788557, author = {Tadashi Ishida and Takuya Shimamoto and Maho Kaminaga and Takahiro Kuchimaru and Shinae Kizaka-Kondoh and Toru Omata}, title = {Microfluidic High-Migratory Cell Collector Suppressing Artifacts Caused by Microstructures}, journal = {micromachines}, year = 2019, } @article{CTT100810127, author = {Maho Kaminaga and Tadashi Ishida and Tetsuya Kadonosono and Shinae Kizaka-Kondoh and Toru Omata}, title = {Microfluidic device for screening for target cell-specific binding molecules by using adherent cells}, journal = {Micromachines (Basel)}, year = 2019, } @article{CTT100735184, author = {Maho Kaminaga and Tadashi Ishida and Toru Omata}, title = {Fabrication of pneumatic microvalve for tall microchannel using inclined lithography}, journal = {micromachines}, year = 2016, } @article{CTT100709061, author = {Maho Kaminaga and Tadashi Ishida and Tetsuya Kadonosono and Shinae Kizaka-Kondoh and TORU OMATA}, title = {Uniform Cell Distribution Achieved by Using Cell Deformation in a Micropillar Array}, journal = {Micromachines}, year = 2015, } @inproceedings{CTT100890908, author = {神永 真帆 and 中村 哲也 and 小俣 透}, title = {がん細胞 3 次元培養デバイスへの栄養供給アルギン酸ゲルファイバ 組込方法の検討}, booktitle = {}, year = 2022, } @inproceedings{CTT100879761, author = {藤原 滉一朗 and 神永真帆 and 小俣透}, title = {低栄養領域へ送液可能ながん細胞3次元培養デバイス}, booktitle = {}, year = 2021, } @inproceedings{CTT100803327, author = {神永真帆 and 石田忠 and 小俣透}, title = {標的細胞特異的結合分子付着効率向上のためのマイクロ流路高さ切り替え}, booktitle = {}, year = 2019, } @inproceedings{CTT100810159, author = {神永 真帆 and 石田 忠 and 門之園 哲哉 and 近藤 科江 and 小俣 透}, title = {ペプチド探索マイクロ流路デバイスにおける非標的細胞結合ペプチド除去性能の向上}, booktitle = {}, year = 2018, } @inproceedings{CTT100709231, author = {神永真帆 and 石田忠 and 門之園哲哉 and 近藤科江 and 小俣透}, title = {がん細胞特異的結合ペプチドスクリーニングのためのマイクロ流体デバイス}, booktitle = {}, year = 2016, } @inproceedings{CTT100709223, author = {神永 真帆 * and 石田 忠 and 小俣 透}, title = {傾斜露光による細胞実験用空気圧バルブの開発}, booktitle = {}, year = 2015, } @inproceedings{CTT100768561, author = {神永真帆 and 石田忠 and 門之園哲也 and 近藤科江 and 小俣透}, title = {抗がん剤スクリーニングのためのがん細胞分散 MEMS デバイス}, booktitle = {}, year = 2014, } @misc{CTT100789681, author = {神永真帆}, title = {接着性細胞を用いた細胞特異的結合分子探索のためのマイクロ流路デバイス開発}, year = 2019, } @misc{CTT100789672, author = {神永真帆}, title = {接着性細胞を用いた細胞特異的結合分子探索のためのマイクロ流路デバイス開発}, year = 2019, } @misc{CTT100789674, author = {神永真帆}, title = {接着性細胞を用いた細胞特異的結合分子探索のためのマイクロ流路デバイス開発}, year = 2019, } @misc{CTT100841156, author = {神永真帆}, title = {接着性細胞を用いた細胞特異的結合分子探索のためのマイクロ流路デバイス開発}, year = 2019, } @phdthesis{CTT100789681, author = {神永真帆}, title = {接着性細胞を用いた細胞特異的結合分子探索のためのマイクロ流路デバイス開発}, school = {東京工業大学}, year = 2019, } @phdthesis{CTT100789672, author = {神永真帆}, title = {接着性細胞を用いた細胞特異的結合分子探索のためのマイクロ流路デバイス開発}, school = {東京工業大学}, year = 2019, } @phdthesis{CTT100789674, author = {神永真帆}, title = {接着性細胞を用いた細胞特異的結合分子探索のためのマイクロ流路デバイス開発}, school = {東京工業大学}, year = 2019, } @phdthesis{CTT100841156, author = {神永真帆}, title = {接着性細胞を用いた細胞特異的結合分子探索のためのマイクロ流路デバイス開発}, school = {東京工業大学}, year = 2019, }