Add to ORKG9th workchop HCPBM. Lyon (Fr). p 31.International audienceThe purpose of this investigation is to simulate and predict the behavior of lungs during cancer treatment with high energy ions. In particular, the simulation allows to estimate tumour positions and lung density distribution, which are important for ion range calculations and dosimetry. Our team gathers the LIRIS laboratory and the ETOILE project, in collaboration with the cancer treatment centre Léon Bérard (CLB) and the respiratory physiology laboratory of the Louis Pradel hospital, all in Lyon, France
International audienceOrgan motions, in particular due to patient’s breathing, are crucial for the a...
In this paper, we present a graphics processing unit (GPU)-based simulation framework to calculate t...
The energy-dependent electron loss model (ELM) and proton loss model (PLM) have been developed to pr...
9th workchop HCPBM. Lyon (Fr). p 31.International audienceThe purpose of this investigation is to si...
9th workchop HCPBM. Lyon (Fr). p 31International audienceOur team gathers medical, physical and comp...
The aim of this thesis is to improve lung cancer treatment by radiotherapy or hadrontherapy. We focu...
Lung tumors move during breathing depending on the patient\u27s patho-physiological condition and or...
Purpose: To estimate the effects of the irregular respiratory pattern during the carbon-beam treatme...
This study reports and evaluates treatment planning including organ motion uncertainties for three-...
International audienceMotivated by medical needs, we propose to simulate lung deformation and motion...
International audienceCancer ionising treatments need accurate tumour targeting, which is difficult ...
A computational framework for modeling the respiratory motion of lung tumors provides a 4D parametri...
Radiation therapy (RT) is an important component of treatment for lung cancer. However, the accuracy...
In this paper, we present a real-time simulation and visualization framework that models a deformabl...
Lung tumors move during breathing depending on the patient\u27s pathophysiological condition and ori...
International audienceOrgan motions, in particular due to patient’s breathing, are crucial for the a...
In this paper, we present a graphics processing unit (GPU)-based simulation framework to calculate t...
The energy-dependent electron loss model (ELM) and proton loss model (PLM) have been developed to pr...
9th workchop HCPBM. Lyon (Fr). p 31.International audienceThe purpose of this investigation is to si...
9th workchop HCPBM. Lyon (Fr). p 31International audienceOur team gathers medical, physical and comp...
The aim of this thesis is to improve lung cancer treatment by radiotherapy or hadrontherapy. We focu...
Lung tumors move during breathing depending on the patient\u27s patho-physiological condition and or...
Purpose: To estimate the effects of the irregular respiratory pattern during the carbon-beam treatme...
This study reports and evaluates treatment planning including organ motion uncertainties for three-...
International audienceMotivated by medical needs, we propose to simulate lung deformation and motion...
International audienceCancer ionising treatments need accurate tumour targeting, which is difficult ...
A computational framework for modeling the respiratory motion of lung tumors provides a 4D parametri...
Radiation therapy (RT) is an important component of treatment for lung cancer. However, the accuracy...
In this paper, we present a real-time simulation and visualization framework that models a deformabl...
Lung tumors move during breathing depending on the patient\u27s pathophysiological condition and ori...
International audienceOrgan motions, in particular due to patient’s breathing, are crucial for the a...
In this paper, we present a graphics processing unit (GPU)-based simulation framework to calculate t...
The energy-dependent electron loss model (ELM) and proton loss model (PLM) have been developed to pr...
