Abstract
The amounts of reactive oxygen species generated in aqueous samples by irradiation with X-ray or clinical carbon-ion beams were quantified. Hydroxyl radical ((•)OH), hydrogen peroxide (H(2)O(2)), and the total amount of oxidation reactions, which occurred mainly because of (•)OH and/or hydroperoxy radicals (HO(2) (•)), were measured by electron paramagnetic resonance-based methods. (•)OH generation was expected to be localized on the track/range of the carbon-ion beam/X-ray, and mM and M levels of (•)OH generation were observed. Total (•)OH generation levels were identical at the same dose irrespective of whether X-ray or carbon-ion beam irradiation was used, and were around 0.28-0.35 µmol/L/Gy. However, sparse (•)OH generation levels decreased with increasing linear energy transfer, and were 0.17, 0.15, and 0.09 µmol/L/Gy for X-ray, 20 keV/µm carbon-ion beam, and >100 keV/µm carbon-ion beam sources, respectively. H(2)O(2) generation was estimated as 0.26, 0.20, and 0.17 µmol/L/Gy, for X-ray, 20 keV/µm carbon-ion beam, and >100 keV/µm carbon-ion beam sources, respectively, whereas the ratios of H(2)O(2) generation per oxygen consumption were 0.63, 0.51, and 3.40, respectively. The amounts of total oxidation reactions were 2.74, 1.17, and 0.66 µmol/L/Gy, respectively. The generation of reactive oxygen species was not uniform at the molecular level.