Add to ORKGTo estimate effects of carbon-ion radiotherapy on endobronchial tumor or epithelium, we developrd the visualizing application of planning dose distribution on virtual bronchospic images. The comparison of tissue responses by actual bronchoscopic findings and planning dose distribution on virtual bronchoscopy would be important to evaluate the accuracy of irradiation and the dose response. We developed the software to superimpose the color map of planning dose distribution on virtual bronchoscopic images.H18年度HIMAC共同利用研究成果発表
This study reports and evaluates treatment planning including organ motion uncertainties for three-...
PURPOSE:Irradiation of a moving target with a scanning beam requires a comprehensive understanding o...
PURPOSE: In particle therapy, conventional treatment planning systems rely on an imaging representat...
Purpose: To estimate effects of carbon-ion radiotherapy on endobronchial tumor or epithelium, we dev...
[Objective] In the treatment planning, it is very difficult to comprehend the dose distribution on t...
ICTR2006(Third International Conference on Translational Research and Pre-Clinical Strategies in Rad...
Carbon-ion radio-therapy for lung cancer in HIMAC fares well in decreasing the number of fraction. T...
Background: The toxicity of endobronchial brachytherapy (EB), in particular fatal haemoptysis and br...
OBJECTIVE: \nPancreatic cancer is a difficult to treat disease with a persistently high mortality ra...
We developed an algorithm which we used to design a compensating bolus by using respiratory-gated CT...
Purpose: To estimate the effects of the irregular respiratory pattern during the carbon-beam treatme...
Objective: Pancreatic cancer is a difficult to treat disease with a persistently high mortality rate...
Purpose: To generate virtual 4DCT from 4DMRI with field of view (FOV) extended to the entire involve...
Purpose: High control rates and minimal adverse reactions were reported in National Institute of Rad...
To design a range-compensating bolus for heavy-charged-particle radiotherapy of lung cancer, we prop...
This study reports and evaluates treatment planning including organ motion uncertainties for three-...
PURPOSE:Irradiation of a moving target with a scanning beam requires a comprehensive understanding o...
PURPOSE: In particle therapy, conventional treatment planning systems rely on an imaging representat...
Purpose: To estimate effects of carbon-ion radiotherapy on endobronchial tumor or epithelium, we dev...
[Objective] In the treatment planning, it is very difficult to comprehend the dose distribution on t...
ICTR2006(Third International Conference on Translational Research and Pre-Clinical Strategies in Rad...
Carbon-ion radio-therapy for lung cancer in HIMAC fares well in decreasing the number of fraction. T...
Background: The toxicity of endobronchial brachytherapy (EB), in particular fatal haemoptysis and br...
OBJECTIVE: \nPancreatic cancer is a difficult to treat disease with a persistently high mortality ra...
We developed an algorithm which we used to design a compensating bolus by using respiratory-gated CT...
Purpose: To estimate the effects of the irregular respiratory pattern during the carbon-beam treatme...
Objective: Pancreatic cancer is a difficult to treat disease with a persistently high mortality rate...
Purpose: To generate virtual 4DCT from 4DMRI with field of view (FOV) extended to the entire involve...
Purpose: High control rates and minimal adverse reactions were reported in National Institute of Rad...
To design a range-compensating bolus for heavy-charged-particle radiotherapy of lung cancer, we prop...
This study reports and evaluates treatment planning including organ motion uncertainties for three-...
PURPOSE:Irradiation of a moving target with a scanning beam requires a comprehensive understanding o...
PURPOSE: In particle therapy, conventional treatment planning systems rely on an imaging representat...