@article{oai:repo.qst.go.jp:00044517,
 author = {Ando, Koichi and Koike, Sachiko and Uzawa, Akiko and Takai, Nobuhiko and Fukawa, Takeshi and Furusawa, Yoshiya and Aoki, Mizuho and Hirayama, Ryoichi and 安藤 興一 and 小池 幸子 and 鵜澤 玲子 and 高井 伸彦 and 扶川 武志 and 古澤 佳也 and 青木 瑞穂 and 平山 亮一},
 issue = {2},
 journal = {Journal of Radiation Research},
 month = {Jun},
 note = {In clinical use of carbon-ion beams, a deep-seated tumor is irradiated with a Spread-Out Bragg peak (SOBP) with a high-LET feature, whereas surface skin is irradiated with an entrance plateau, the LET of which is lower than that of the peak. The repair kinetics of murine skin damage caused by an entrance plateau of carbon ions was compared with that caused by photons using a scheme of daily fractionated doses followed by a top-up dose. Right hind legs received local irradiations with either 20 keV/microm carbon ions or gamma rays. The skin reaction of the irradiated legs was scored every other day up to Day 35 using a scoring scale that consisted of 10 steps, ranging from 0.5 to 5.0. An isoeffect dose to produce a skin reaction score of 3.0 was used to obtain a total dose and a top-up dose for each fractionation. Dependence on a preceding dose and on the time interval of a top-up dose was examined using gamma rays. For fractionated gamma rays, the total dose linearly increased while the top-up dose linearly decreased with an increase in the number of fractions. The magnitude of damage repair depended on the size of dose per fraction, and was larger for 5.2 Gy than 12.5 Gy. The total dose of carbon ions with 5.2 Gy per fraction did not change till 2 fractions, but abruptly increased at the 3rd fraction. Factors such as rapid repopulation, induced repair and cell cycle synchronization are possible explanations for the abrupt increase. As an abrupt increase/decrease of normal tissue damage could be caused by changing the number of fractions in carbon-ion radiotherapy, we conclude that, unlike photon therapy, skin damage should be carefully studied when the number of fractions is changed in new clinical trials.},
 pages = {167--174},
 title = {Repair of skin damage during fractionated irradiation with gamma rays and low-LET carbon ions},
 volume = {47},
 year = {2006}
}