Biological Gain of Carbon-ion Radiotherapy for the Early Response of Tumor Growth Delay and against Early Response of Skin Reaction in Mice

The biological effectiveness of carbon ions relative to γ rays (RBE) was compared between the tumor growth delay and an early skin reaction of syngeneic mice. The RBE was larger for a tumor than skin when irradiated with large doses of high-LET (linear energy transfer) carbon ions. The intra-track d...

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Bibliographic Details
Published in:JOURNAL OF RADIATION RESEARCH 2005, Vol.46 (1), p.51-57
Main Authors: Ando, Koichi, Koike, Sachiko, Uzawa, Akiko, Takai, Nobuhiko, Fukawa, Takeshi, Furusawa, Yoshiya, Aoki, Mizuho, Miyato, Yasuyuki
Format: Article
Language:English
Subjects:
Analysis
Animals
Carbon Isotopes - adverse effects
Carbon Isotopes - therapeutic use
Cell Proliferation - radiation effects
Dose-Response Relationship, Radiation
Female
Fibrosarcoma - pathology
Fibrosarcoma - radiotherapy
Gamma rays
Gamma Rays - adverse effects
Gamma Rays - therapeutic use
Growth
Health aspects
Male
Mice
Mice, Inbred C3H
Radiodermatitis - etiology
Radiodermatitis - pathology
Radiodermatitis - prevention & control
Radiotherapy
Radiotherapy Dosage
Skin
Skin - radiation effects
Treatment Outcome
Tumors
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Summary:The biological effectiveness of carbon ions relative to γ rays (RBE) was compared between the tumor growth delay and an early skin reaction of syngeneic mice. The RBE was larger for a tumor than skin when irradiated with large doses of high-LET (linear energy transfer) carbon ions. The intra-track damage (α term of a linear quadratic model) of a tumor and skin increased equally with an increase of the LET, while the inter-track damage (β term) of skin alone increased with the LET. These data provide evidence that high-LET radiotherapy could achieve therapeutic gain by minimizing the difference in response to fractionated irradiation between the tumor and normal tissue.
ISSN:0449-3060
1349-9157
DOI:10.1269/jrr.46.51