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Department Of Technical Support And Development Natl. Inst. Radiol. Sci. | 論文
- Chromosome Breakage and Cell Lethality in Human Hepatoma Cells Irradiated with X rays and Carbon-ion Beams
- 宇宙放射線類似線源による細胞がん化と(ヒト-ハムスター)ハイブリッド細胞を用いた逆線量率効果の解析
- Reversed dose-rate effect of high LET radiation in mutation induction
- 156 Radiation protective effect of melatonin on mice(Radio-protection and sensitization, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
- X-Ray Dose Enhancement Caused by the Addition of Gd-contrast Media and its Effect for Chromosome Aberration Efficiencies.
- 重粒子炭素線生物効果における時間因子と治療効果比
- The Relationship Between Residual Interphase Chromosome Breakage and Cellular Radiosensitivity in Transformed Syrian Golden Hamster Cells
- Response of human tumor cells in plateau phase and grown as spheroids to carbon beam irradiation.
- Development of a Radio-sensitive Mutation System for the Study of Dose Rate Effects of Space High LET Radiation
- Responses of total and quiescent cell populations in solid tumors to carbon ion beam irradiation (290 MeV/u) in vivo
- The role of cytochrome c and mitochondria in the signal transduction pathway for radiation-induced apoptosis
- GADD45 and JNK/SAPK expressions following treatment of high osmolarity agent and γray in HeLa S3 cells
- Evaluation of Late Radiation Damage of Normal Tissues in Mouse Hind Legs after Irradiation with Carbon Beams
- RBE and Dose Distribution of Heavy Ion Beams.
- Cytosol extracted from irradiated cells induced DNA fragmentation
- Time Dependent Reduction of Skin Shrinkage in Mouse after Irradiation with the Falloff of Carbon Bragg Peak
- Dose response relations in acute cell death of pancreatic islets after irradiation of golden hamster with X-ray ,7OMeV proton and 290MeV carbon beams.
- Morphological Evaluation of Normal Tissue Damage after Neon Beam Irradiation in Mouse Hind Legs
- Evaluation of Normal Tissue Damage after Fractionated Irradiation of HIMAC Carbon- 12 in Mouse Hind Legs
- RBBs of 30MeV Fast Neutrons and 135MeV Carbon Beams for Clongenecities in Mouse Growing Tail Cartilage Cells.