Topics
lung cancerDisease
International audienceThe estimation of the distribution patterns of energy and dose in respiratory-induced organ motion represents a technical challenge for hadron therapy treatment planning, notably in the case of lung cancer in which many difficulties arose, like tissue densities variation and the tumor position shifting during breathing. This study focuses on the comparison between deformable tetrahedral meshes and voxel-based structures used as computational phantoms in four-dimensional dose calculations. The former use a continuous representation of tissue densities by respecting mass conservation principle, while the latter is a discrete grid of density values (CT-scan)
PURPOSE Respiratory motion is a non-negligible source of uncertainty in radiotherapy. A common appr...
International audienceOrgan motion due to patient breathing introduces a technical challenge for dos...
International audienceOrgan motion, especially respiratory motion, is a technical challenge to radia...
International audienceThe estimation of the distribution patterns of energy and dose in respiratory-...
International audienceThe distribution patterns estimation of energy and dosein respiratory-induced ...
The estimation of energy and dose distribution patterns in respiratory-induced organ motion constitu...
International audienceHadron therapy is an advanced radiotherapy technique for cancer treatment. It ...
International audiencePurpose: Respiratory-induced organ motion is a technical challenge to nuclear ...
International audienceThe use of tetrahedral-based phantoms in conjunction with Monte Carlo dose cal...
International audienceOrgan motion, especially respiratory motion, is a technical challenge to hadro...
A new deformable geometry class for the VMC++ Monte Carlo code was implemented based on the voxel wa...
A limitation of current dose calculation algorithms employed in radiotherapy treatment planning is t...
A voxel warping method for 4D dose accumulation was implemented in the VMC++ Monte Carlo code. Dose ...
This article presents the implementation and validation of a dose calculation approach for deforming...
The aim of any radiotherapy is to tailor the tumoricidal radiation dose to the target volume and to ...
PURPOSE Respiratory motion is a non-negligible source of uncertainty in radiotherapy. A common appr...
International audienceOrgan motion due to patient breathing introduces a technical challenge for dos...
International audienceOrgan motion, especially respiratory motion, is a technical challenge to radia...
International audienceThe estimation of the distribution patterns of energy and dose in respiratory-...
International audienceThe distribution patterns estimation of energy and dosein respiratory-induced ...
The estimation of energy and dose distribution patterns in respiratory-induced organ motion constitu...
International audienceHadron therapy is an advanced radiotherapy technique for cancer treatment. It ...
International audiencePurpose: Respiratory-induced organ motion is a technical challenge to nuclear ...
International audienceThe use of tetrahedral-based phantoms in conjunction with Monte Carlo dose cal...
International audienceOrgan motion, especially respiratory motion, is a technical challenge to hadro...
A new deformable geometry class for the VMC++ Monte Carlo code was implemented based on the voxel wa...
A limitation of current dose calculation algorithms employed in radiotherapy treatment planning is t...
A voxel warping method for 4D dose accumulation was implemented in the VMC++ Monte Carlo code. Dose ...
This article presents the implementation and validation of a dose calculation approach for deforming...
The aim of any radiotherapy is to tailor the tumoricidal radiation dose to the target volume and to ...
PURPOSE Respiratory motion is a non-negligible source of uncertainty in radiotherapy. A common appr...
International audienceOrgan motion due to patient breathing introduces a technical challenge for dos...
International audienceOrgan motion, especially respiratory motion, is a technical challenge to radia...
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