A novel technique is proposed to develop a biomechanical model for estimating lung’s tumor position as a function of respiration cycle time. Continuous tumor motion is a major challenge in lung cancer treatment techniques where the tumor needs to be targeted; e.g. in external beam radiotherapy and brachytherapy. If not accounted for, this motion leads to areas of radiation over and/or under dosage for normal tissue and tumors. In this thesis, biomechanical models were developed for lung tumor motion predication in two distinct cases of lung brachytherapy and lung external beam radiotherapy. The lung and other relevant surrounding organs geometries, loading, boundary conditions and mechanical properties were considered and incorporated prope...
Background: The aim of this work was to study the feasibility of constructing a fast thorax model su...
International audiencePrediction of respiratory motion has the potential tosubstantially improve can...
Respiratory motion causes an important uncertainty in radiotherapy planning of the thorax and upper ...
Lung cancer is the most common cause of cancer related death in both men and women. Radiation therap...
Radiation therapy is a main component of treatment for many lung cancer patients. However, the respi...
A biomechanical model is proposed to predict deflated lung tumor motion caused by diaphragm respirat...
Engineering and Computational Sciences for Medical Imaging in Oncology - ECSMIO is the special sessi...
Purpose: The treatment efficacy of radiation therapy for lung tumors can be increased by compensatin...
Radiation therapy (RT) is an important component of treatment for lung cancer. However, the accuracy...
Radiotherapy of the lung is challenging due to the motion induced by respiration. Plans of radiother...
Finite element analysis (FEA)-based biomechanical modeling can be used to predict lung respiratory m...
The purpose of this dissertation was to investigate the effects of respiration on the motion of lung...
International audienceIn this chapter, we evaluate the 3D tumor trajectories from patient-specific b...
Respiratory motion poses significant problems in the radiotherapy of tumors located at sites (lung, ...
International audienceThe success of radiotherapy treatment could be compromised by motion. Lung tum...
Background: The aim of this work was to study the feasibility of constructing a fast thorax model su...
International audiencePrediction of respiratory motion has the potential tosubstantially improve can...
Respiratory motion causes an important uncertainty in radiotherapy planning of the thorax and upper ...
Lung cancer is the most common cause of cancer related death in both men and women. Radiation therap...
Radiation therapy is a main component of treatment for many lung cancer patients. However, the respi...
A biomechanical model is proposed to predict deflated lung tumor motion caused by diaphragm respirat...
Engineering and Computational Sciences for Medical Imaging in Oncology - ECSMIO is the special sessi...
Purpose: The treatment efficacy of radiation therapy for lung tumors can be increased by compensatin...
Radiation therapy (RT) is an important component of treatment for lung cancer. However, the accuracy...
Radiotherapy of the lung is challenging due to the motion induced by respiration. Plans of radiother...
Finite element analysis (FEA)-based biomechanical modeling can be used to predict lung respiratory m...
The purpose of this dissertation was to investigate the effects of respiration on the motion of lung...
International audienceIn this chapter, we evaluate the 3D tumor trajectories from patient-specific b...
Respiratory motion poses significant problems in the radiotherapy of tumors located at sites (lung, ...
International audienceThe success of radiotherapy treatment could be compromised by motion. Lung tum...
Background: The aim of this work was to study the feasibility of constructing a fast thorax model su...
International audiencePrediction of respiratory motion has the potential tosubstantially improve can...
Respiratory motion causes an important uncertainty in radiotherapy planning of the thorax and upper ...