Add to ORKGTo compare the biological effectiveness of 6 cm SOBP carbon ion therapy beams between the GSI and NIRS. We tested the survival of human salivary gland tumor HSG cells and the crypt survival of C3H mice exposed to HIMAC and GSI carbon therapeutic beams with a 6 cm SOBP. The relative biological effectiveness of the SOBP beams was uniform, and no significant differences were noted when the depth-dose distribution was similar. However the depth-dose distribution between the HIMAC passive beam and the 4Gy RBE GIS spot scanning beam with LEM-I showed were different.2nd NIRS-ETOILE Joint Symposium on Carbon Ion Therap
(Introduction) Heavy-ion beams have good dose distribution for tumor. Carbon beams, accelerated by H...
The purpose of this study is to find and suggests an optimum theraputic ion beam for the next genera...
Variation in the relative biological effectiveness (RBE) within the irradiation field of a carbon be...
Purpose: More than 5000 patients have been treated with passively generated carbon-ion SOBP beam at ...
Escalating relative biological effectiveness (RBE) of carbon-ion beam toward range end is attractive...
Cancer therapy with carbon ions at the HIMAC has started in 1994, more than 5,000 lesions have been ...
The clinical dose distributions of therapeutic carbon beams, currently used at NIRS HIMAC, are based...
In this article, the in vivo study performed to evaluate the uniformity of biological doses within a...
Due to the RBE variations, the carbon-ion doses (in Gy) are no longer sufficient to monitor adequate...
Human cell line/Carbon-ion beams/Cell inactivation/Relative Biological Effectiveness (RBE)/Linear En...
To assess CNAO carbon beam in order to ensure safe and accurate patient therapy. We performed radio...
harged particle therapy depends on biological information for the dose prescription. Relative biolog...
This work aimed at measuring cell-killing effectiveness of monoenergetic and Spread-Out Bragg Peak (...
This work aimed at measuring cell-killing effectiveness of monoenergetic and Spread-Out Bragg Peak (...
Five proton therapy facilities (HIBMC, Hyogo; NCCHE, Kashiwa; WERC, Tsuruga; PMRC, Tsukuba; SCC, Shi...
(Introduction) Heavy-ion beams have good dose distribution for tumor. Carbon beams, accelerated by H...
The purpose of this study is to find and suggests an optimum theraputic ion beam for the next genera...
Variation in the relative biological effectiveness (RBE) within the irradiation field of a carbon be...
Purpose: More than 5000 patients have been treated with passively generated carbon-ion SOBP beam at ...
Escalating relative biological effectiveness (RBE) of carbon-ion beam toward range end is attractive...
Cancer therapy with carbon ions at the HIMAC has started in 1994, more than 5,000 lesions have been ...
The clinical dose distributions of therapeutic carbon beams, currently used at NIRS HIMAC, are based...
In this article, the in vivo study performed to evaluate the uniformity of biological doses within a...
Due to the RBE variations, the carbon-ion doses (in Gy) are no longer sufficient to monitor adequate...
Human cell line/Carbon-ion beams/Cell inactivation/Relative Biological Effectiveness (RBE)/Linear En...
To assess CNAO carbon beam in order to ensure safe and accurate patient therapy. We performed radio...
harged particle therapy depends on biological information for the dose prescription. Relative biolog...
This work aimed at measuring cell-killing effectiveness of monoenergetic and Spread-Out Bragg Peak (...
This work aimed at measuring cell-killing effectiveness of monoenergetic and Spread-Out Bragg Peak (...
Five proton therapy facilities (HIBMC, Hyogo; NCCHE, Kashiwa; WERC, Tsuruga; PMRC, Tsukuba; SCC, Shi...
(Introduction) Heavy-ion beams have good dose distribution for tumor. Carbon beams, accelerated by H...
The purpose of this study is to find and suggests an optimum theraputic ion beam for the next genera...
Variation in the relative biological effectiveness (RBE) within the irradiation field of a carbon be...