Chizuru Tsuruoka

Research field (1)： Radiology

Research theme for competitive and other funds (10)：

2024 - 2027 Elucidation of the carcinogenic mechanism by DNA recombination: Aiming to improve radiation carcinogenesis risk assessment
2022 - 2025 有人宇宙開発を見据えた、微小重力と放射線被ばくの複合ストレスが発がんに及ぼす影響
2021 - 2024 Elucidation of radiation carcinogenesis mechanism aiming at advanced evaluation of carcinogenesis risk due to exposure
2019 - 2023 異なる種類の放射線に被ばくをすると発がんにどの様な影響をもたらすか?
2016 - 2019 Relationship of the age at exposure and the risk of radiation-induced tumor.

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Papers (38)：

Chizuru Tsuruoka, Mayumi Shinagawa, Yi Shang, Yoshiko Amasaki, Masaaki Sunaoshi, Tatsuhiko Imaoka, Takamitsu Morioka, Yoshiya Shimada, Shizuko Kakinuma. Relative Biological Effectiveness of Carbon Ion Beams for Induction of Medulloblastoma with Radiation-specific Chromosome 13 Deletion in Ptch1+/- Mice. Radiation research. 2024
Kenshi Suzuki, Chizuru Tsuruoka, Takamitsu Morioka, Hitomi Seo, Mari Ogawa, Ryosuke Kambe, Tatsuhiko Imaoka, Shizuko Kakinuma, Akihisa Takahashi. Combined effects of radiation and simulated microgravity on intestinal tumorigenesis in C3B6F1 Apc/+ mice. Life Sciences in Space Research. 2024. 41. 202-209
Hiromi Yanagihara, Takamitsu Morioka, Shunsuke Yamazaki, Yutaka Yamada, Hirotaka Tachibana, Kazuhiro Daino, Chizuru Tsuruoka, Yoshiko Amasaki, Mutsumi Kaminishi, Tatsuhiko Imaoka, et al. Interstitial deletion of the Apc locus in β-catenin-overexpressing cells is a signature of radiation-induced intestinal tumors in C3B6F1 ApcMin/+ mice†. Journal of radiation research. 2023. 64. 3. 622-631
Masaaki Sunaoshi, Benjamin J Blyth, Yi Shang, Chizuru Tsuruoka, Takamitsu Morioka, Mayumi Shinagawa, Mari Ogawa, Yoshiya Shimada, Akira Tachibana, Daisuke Iizuka, et al. Post-Irradiation Thymic Regeneration in B6C3F1 Mice Is Age Dependent and Modulated by Activation of the PI3K-AKT-mTOR Pathway. Biology. 2022. 11. 3
Environmental Enrichment Increases Radiation-induced Apoptosis Not, Spontaneous Apoptosis in, Mouse Intestinal Crypt Cells. Environmental Enrichment Increases Radiation-induced Apoptosis Not;Spontaneous Apoptosis in;Mouse Intestinal Crypt Cells. in vivo. 2022. 36. 2. 618-627

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MISC (9)：

髙橋, 昭久, 鈴木, 健之, 鶴岡, 千鶴, 森岡, 孝満, 武島, 嗣英, 吉田, 由香里, 中村, 麻子, 池田, 裕子, 秦, 恵, 永松, 愛子, et al. 宇宙放射線と重力環境変化による複合影響研究 2021年報-Research on Combined Effects of Space Radiation and Variable Gravity- 2021 Annual Report-. 宇宙環境利用シンポジウム第36回: 令和三年度 = Space Utilization Research, Vol. 36 2021: Proceedings of The Thirty-sixth Space Utilization Symposium. 2022
髙橋, 昭久, 鈴木, 健之, 鶴岡, 千鶴, 森岡, 孝満, 武島, 嗣英, 吉田, 由香里, 中村, 麻子, 池田, 裕子, 秦, 恵, 永松, 愛子, et al. 宇宙放射線と重力環境変化による複合影響研究 2020年報-Research on Combined Effects of Space Radiation and Variable Gravity - 2020 Annual Report-. 宇宙環境利用シンポジウム第35回: 令和二年度 = Space Utilization Research, Vol. 35 2020: Proceedings of The Thirty-fifth Space Utilization Symposium. 2021. 35
髙橋, 昭久, 神戸, 崚輔, 鈴木, 健之, 鶴岡, 千鶴, 森岡, 孝満, 武島, 嗣英, 吉田, 由香里, 中村, 麻子, 秦, 恵, 永松, 愛子, et al. 宇宙放射線と重力環境変化による複合影響研究-Research on Combined Effects of Space Radiation and Variable Gravity. 宇宙環境利用シンポジウム第34回: 令和元年度 = Space Utilization Research, Vol. 34 2019: Proceedings of The Thirty-fourth Space Utilization Symposium. 2020. 34
Evaluation of radiation induced tumor for low-dose-rate exposure using Ptch1 heterozygous mice. 2017. 59. 6. 340-343
臺野和広, 砂押正章, 高畠賢, ブライスベンジャミン, 鶴岡千鶴. 発達期被ばくを考える発達期被ばくにより誘発された腫瘍の分子生物学的特徴. 放射線科学. 2015. 58. 3

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Committee career (6)：

2024 - 現在一般社団法人日本放射線影響学会キャリアパス・男女共同参画委員
2024 - 現在一般社団法人日本放射線影響学会賞等選考委員会副委員長
2023 - 現在一般社団法人日本宇宙生物科学会長期構想委員
2023 - 現在一般社団法人日本宇宙生物科学会科学者生活委員会副委員長
2023 - 現在一般社団法人日本宇宙生物科学会理事

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