Journal of Radiation Research
Online ISSN : 1349-9157
Print ISSN : 0449-3060
Regular Papers
Relative Biological Effectiveness of 290 MeV/u Carbon Ions for the Growth Delay of a Radioresistant Murine Fibrosarcoma
SACHIKO KOIKEKOICHI ANDOCHISA OOHIRATAKESHI FUKAWARYONFA LEENOBUHIKO TAKAIMANAMI MONOBEYOSHIYA FURUSAWAMIZUHO AOKISHIGERU YAMADAWAKAKO SHIMIZUKUMIE NOJIMAHIDEYUKI MAJIMA
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2002 Volume 43 Issue 3 Pages 247-255

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Abstract

The relative biological effectiveness (RBE) for animal tumors treated with fractionated doses of 290 MeV/u carbon ions was studied. The growth delay of NFSa fibrosarcoma in mice was investigated following various daily doses given with carbon ions or those given with cesium γ-rays, and the RBE was determined. Animal tumors were irradiated with carbon ions of various LET (linear energy transfer) in a 6-cm SOBP (spread-out Bragg peak), and the isoeffect doses; i.e. the dose necessary to induce a tumor growth delay of 15 days were studied. The isoeffect dose for carbon ions of 14 and 20 keV/μm increased with an increase in the number of fractions up to 4 fractions. The increase in the isoeffect dose with the fraction number was small for carbon ions of 44 keV/μm, and was not observed for 74 keV/μm. The α and β values of the linear-quadratic model for the radiation dose-cell survival relationship were calculated by the Fe-plot analysis method. The α values increased linearly with an increase in the LET, while the β values were independent of the LET. The α/β ratio was 129 ± 10 Gy for γ-rays, and increased with an increase in the LET, reaching 475 ± 168 Gy for 74 keV/μm carbon ions. The RBE for carbon ions relative to Cs-137 γ-rays increased with the LET. The RBE values for 14 and 20 keV/μm carbon ions were 1.4 and independent of the number of fractions, while those for 44 and 74 keV/μm increased from 1.8 to 2.3 and from 2.4 to 3.0, respectively, when the number of fractions increased from 1 to 4. Increasing the number of fractions further from 4 to 6 was not associated with an increase in the RBE. These results together with our earlier study on the skin reaction support the use of an RBE of 3.0 in clinical trials of 80 keV/μm carbon beams. The RBE values for low doses of carbon beams were also considered.

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© 2002 by Journal of Radiation Research Editorial Committee
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