Treatment planning of heavy-ion radiotherapy involves predictive calculation of not only physical dose but also biological dose in a patient body. The biological dose is defined as the product of the physical dose and the relative biological effectiveness (RBE). In carbon-ion radiotherapy at National Institute of Radiological Sciences, the RBE value has been defined as the ratio of the 10% survival dose of 200 kVp X-ray to that of the radiation of interest for in vitro human salivary gland tumor cells. In this article, the physical and biological dose distributions of a typical therapeutic carbon-ion beam are calculated using a GEANT4 Monte Carlo simulation toolkit in comparison with those with the biological dose estimate system based on t...
Cerebral radionecrosis is a significant side effect in radiotherapy for brain cancer. The purpose of...
Ion beam therapy, as an emerging radiation therapy modality, requires continuous efforts to develop ...
The National Institute of Radiological Sciences (NIRS) has achieved remarkable results in clinical t...
We developed a calculation technique to evaluate the biological dose distribution of heavy ion beams...
Carbon ion radiotherapy is a novel modality used for the treatment of tumors that are unresectable, ...
Charged particle therapy with carbon ions has advantages over conventional radiotherapy using x-ray ...
Charged particle therapy with carbon ions has advantages overconventional radiotherapy using ...
アブストラクトProposeWe have developed a Monte Carlo simulation software to calculate dose distributions fo...
International audienceFor the evaluation of the biological effects, Monte Carlo toolkits were used t...
Cancer therapy using heavy ions is more body-friendly than treatments using any other types of radia...
At the National Institute of Radiological Sciences (NIRS), more than 8,000 patients have been treate...
Purpose: Recent radiotherapy technologies including carbon-ion radiotherapy can improve the dose con...
Variation in the relative biological effectiveness (RBE) within the irradiation field of a carbon be...
Modern cancer treatment relies on Monte Carlo simulations to help radiotherapists and clinical physi...
In this chapter, we describe two different methods, analytical (pencil beam) algorithms and Monte Ca...
Cerebral radionecrosis is a significant side effect in radiotherapy for brain cancer. The purpose of...
Ion beam therapy, as an emerging radiation therapy modality, requires continuous efforts to develop ...
The National Institute of Radiological Sciences (NIRS) has achieved remarkable results in clinical t...
We developed a calculation technique to evaluate the biological dose distribution of heavy ion beams...
Carbon ion radiotherapy is a novel modality used for the treatment of tumors that are unresectable, ...
Charged particle therapy with carbon ions has advantages over conventional radiotherapy using x-ray ...
Charged particle therapy with carbon ions has advantages overconventional radiotherapy using ...
アブストラクトProposeWe have developed a Monte Carlo simulation software to calculate dose distributions fo...
International audienceFor the evaluation of the biological effects, Monte Carlo toolkits were used t...
Cancer therapy using heavy ions is more body-friendly than treatments using any other types of radia...
At the National Institute of Radiological Sciences (NIRS), more than 8,000 patients have been treate...
Purpose: Recent radiotherapy technologies including carbon-ion radiotherapy can improve the dose con...
Variation in the relative biological effectiveness (RBE) within the irradiation field of a carbon be...
Modern cancer treatment relies on Monte Carlo simulations to help radiotherapists and clinical physi...
In this chapter, we describe two different methods, analytical (pencil beam) algorithms and Monte Ca...
Cerebral radionecrosis is a significant side effect in radiotherapy for brain cancer. The purpose of...
Ion beam therapy, as an emerging radiation therapy modality, requires continuous efforts to develop ...
The National Institute of Radiological Sciences (NIRS) has achieved remarkable results in clinical t...