Kiichi Kaminaga

Research field (1)： Cell biology

Research theme for competitive and other funds (4)：

2023 - 2025 重イオンマイクロビーム照射個体内局所応答のタイムラプス量子センシング
2020 - 2023 放射線が誘発する細胞内温度、pH変化とそのダイナミクスの解明
2020 - 2023 Intracellular spatiotemporal mapping of physical/chemical parameters using nanodiamond quantum sensors
2019 - 2020 Elucidation of the relationship of DNA lesion / DNA damage response and changes in mitochondrial activity

Papers (18)：

Kazuaki Rikiyama, Nanami Maehara, Hiroshi Abe, Yushi Nishimura, Hiroshi Yukawa, Kiichi Kaminaga, Ryuji Igarashi, Kensuke Osada. Quantification of Poly(ethylene glycol) Crowding on Nanodiamonds toward Quantum Biosensor for Improved Prevention Effects on Protein Adsorption and Lung Accumulation. Langmuir. 2024. 40. 18. 9471-9480
Hisanori Fukunaga, Kiichi Kaminaga, Eri Hirose, Ritsuko Watanabe, Noriko Usami, Kevin M. Prise, Akinari Yokoya. No Intercellular Regulation of the Cell Cycle among Human Cervical Carcinoma HeLa Cells Expressing Fluorescent Ubiquitination-Based Cell-Cycle Indicators in Modulated Radiation Fields. International Journal of Molecular Sciences. 2021. 22. 23. 12785-12785
Tamami Yanagi, Kiichi Kaminaga, Michiyo Suzuki, Hiroshi Abe, Hiroki Yamamoto, Takeshi Ohshima, Akihiro Kuwahata, Masaki Sekino, Tatsuhiko Imaoka, Shizuko Kakinuma, et al. All-Optical Wide-Field Selective Imaging of Fluorescent Nanodiamonds in Cells, In Vivo and Ex Vivo. ACS Nano. 2021. 15. 8. 12869-12879
Kiichi Kaminaga, Hiromi Yanagihara, Takuya Genjo, Takamitsu Morioka, Hiroshi Abe, Masahiro Shirakawa, Takeshi Ohshima, Shizuko Kakinuma, Ryuji Igarashi. Non-contact Measurement of Internal Body Temperature Using Subcutaneously Implanted Diamond Microparticles. Biomaterials Science. 2021. 9. 21. 7049-7053
Tamami Yanagi, Kiichi Kaminaga, Wataru Kada, Osamu Hanaizumi, Ryuji Igarashi. Optimization of Wide-Field ODMR Measurements Using Fluorescent Nanodiamonds to Improve Temperature Determination Accuracy. Nanomaterials. 2020. 10. 11. 2282-2282

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MISC (50)：

西村由希子, 神長輝一, 宇佐美徳子, 横谷明徳, 今岡達彦. Does sparse radiation exposure affect rat mammary cell competition?. KEK Progress Report (Web). 2023. 2023-2
西村由希子, 神長輝一, 宇佐美徳子, 横谷明徳, 今岡達彦. Beam position adjustment required in X-ray microbeam irradiation of two-dimensionally cultured rat mammary cells expressing fluorescent proteins. KEK Progress Report (Web). 2022. 2022-5
五十嵐龍治, 神長輝一, 柳瑶美. ナノダイヤモンドNVを用いた生体の温度/pH計測-Biological Measurement of Temperature and pH Using Nanodiamonds Containing NV Centers-特集ダイヤモンド固体量子センサと量子センシング技術. まぐね = Magnetics Japan. 2022. 17. 6. 286-291
神長輝一, 横谷明徳, 横谷明徳, 福永久典. Application of a Mouse Ex Vivo Spermatogenesis Model to Elucidate the Mechanism of Radio-Therapy-Related Male Infertility. RADIOISOTOPES (Web). 2022. 71. 1
西村由希子, 西村由希子, 神長輝一, 宇佐美徳子, 横谷明徳, 今岡達彦. Beam position adjustment required in X-ray microbeam irradiation of two-dimensional cultured rat mammary gland cells. KEK Progress Report (Web). 2021. 2021-4

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Patents (8)：

画像解析装置、画像解析方法およびプログラム、ならびにライトフィールド量子計測システムおよびライトフィールド量子計測方法
画像解析装置、画像解析方法およびプログラム、ならびに複眼光学系量子計測システムおよび複眼光学系量子計測方法
窒素-空孔複合欠陥を有する材料の製造方法、製造装置、製造プログラム、及び窒素-空孔複合欠陥を有する材料
顕微鏡対物レンズ、顕微鏡対物レンズ用アタッチメント及び顕微鏡
細胞内量子計測装置、細胞内量子計測方法、及び細胞保持装置

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Professional career (1)：

博士(理学) (茨城大学大学院)

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