Add to ORKGIn treatment planning for hadron therapy, information about the relative stopping power in a patient\u27s body is used to calculate the range of incident ions. This information is obtained from computed tomography (CT) images using a conversion table from x-ray CT numbers into stopping powers relative to the stopping power of water. In treatment planning at the National Institute of Radiological Sciences (NIRS), the conversion table has been created based on the polybinary tissue model. However, it has not been fully verified that the model is accurate enough for use in real animal tissues. In order to irradiate heavy ions more precisely in radiotherapy, we have to evaluate the accuracy of the polybinary tissue calibration in animal tissues...
International audienceProton computed tomography (CT) has been described as a solution for imaging t...
International audienceBackground:Several strategies have been proposed to calculate stopping power r...
[Purpose] A new calibration method for CT number to stopping-power ratio conversion was recently pro...
In treatment planning for hadron therapy, information about the relative stopping power in a patient...
For precision delivery of the Bragg peak of a heavy-ion beam to a target volume in ion beam therapy,...
A method to establish the relationship between CT number and effective density for therapeutic radia...
Purpose: The range uncertainties in proton therapy is a problem in current treatment planning of can...
Despite extensive research in dual-energy computed tomography (CT), single-energy CT (SECT) is still...
Abstract Background The precision in carbon ion radiotherapy depends on the calibration of Hounsfiel...
In charged-particle therapy treatment planning, the volumetric distribution of stopping power ratios...
Objective:Heavy ion radiotherapy is characterized its excellent physical dose localization and the b...
Despite extensive research in dual-energy computed tomography (CT), single-energy CT (SECT) is still...
Background and Purpose: The range uncertainty in particle therapy should be reduced to prevent healt...
In charged-particle therapy treatment planning, the volumetric distribution of stopping power ratios...
We have developed a heavy-ion computed tomography (IonCT) system using a scintillation screen and an...
International audienceProton computed tomography (CT) has been described as a solution for imaging t...
International audienceBackground:Several strategies have been proposed to calculate stopping power r...
[Purpose] A new calibration method for CT number to stopping-power ratio conversion was recently pro...
In treatment planning for hadron therapy, information about the relative stopping power in a patient...
For precision delivery of the Bragg peak of a heavy-ion beam to a target volume in ion beam therapy,...
A method to establish the relationship between CT number and effective density for therapeutic radia...
Purpose: The range uncertainties in proton therapy is a problem in current treatment planning of can...
Despite extensive research in dual-energy computed tomography (CT), single-energy CT (SECT) is still...
Abstract Background The precision in carbon ion radiotherapy depends on the calibration of Hounsfiel...
In charged-particle therapy treatment planning, the volumetric distribution of stopping power ratios...
Objective:Heavy ion radiotherapy is characterized its excellent physical dose localization and the b...
Despite extensive research in dual-energy computed tomography (CT), single-energy CT (SECT) is still...
Background and Purpose: The range uncertainty in particle therapy should be reduced to prevent healt...
In charged-particle therapy treatment planning, the volumetric distribution of stopping power ratios...
We have developed a heavy-ion computed tomography (IonCT) system using a scintillation screen and an...
International audienceProton computed tomography (CT) has been described as a solution for imaging t...
International audienceBackground:Several strategies have been proposed to calculate stopping power r...
[Purpose] A new calibration method for CT number to stopping-power ratio conversion was recently pro...