@misc{oai:repo.qst.go.jp:00072064,
 author = {Matsumoto, Ken-ichiro and Ueno, Megumi and Nyui, Minako and Ogawa, Yukihiro and Kamibayashi, Masato and Sekine-Suzuki, Emiko and Nakanishi, Ikuo and Anzai, Kazunori and Ozawa, Toshihiko and 松本 謙一郎 and 上野 恵美 and 乳井 美奈子 and 小川 幸大 and 上林 將人 and 関根 絵美子 and 中西 郁夫 and 安西 和紀 and 小澤 俊彦},
 month = {Nov},
 note = {Generation of reactive oxygen species (ROS) is considered as essential trigger of biological effects of ionizing radiations, and may be deeply linked with the radiation quality.
Amounts of total oxidation reactions (i.e. oxidative free radical species, •OH and HO2•), H2O2 generations, Oxygen consumptions, and •OH generations induced by X-ray, 20 keV/μm carbon beam, and 80 keV/μm carbon beam were estimated using EPR based techniques.
Total oxidation reactions were estimated as 3, 1.3, and 0.66 μmol/L/Gy, amount of H2O2 generations were 0.2, 0.57, and 0.35 μmol/L/Gy, oxygen consumptions were 0.4, 0.39, and 0.15 μmol/L/Gy for X-ray, 20 keV/μm carbon beam, and 80 keV/μm carbon beam, respectively. The ratio of H2O2 generation per oxygen consumption were increased with LET, and were 0.5, 1.46, 2.33 for X-ray, 20 keV/μm carbon beam, and 80 keV/μm carbon beam, respectively. The •OH generations expected to be localized on the track/range of the radiation beam/ray, and both sparse (≈ 3.3 mM) and very dense (> 1.7 M) •OH generations were suggested. Percentage of sparse •OH generation decreased with LET becoming higher., The SFRBM's 23rd Annual Meeting, a joint meeting with the Society for Free Radical Research International (SFRBM/SFRRI 2016)},
 title = {EPR based Estimation of Radiation-Induced Reactive Oxygen Species},
 year = {2016}
}