Background: The aim of this work was to study the feasibility of constructing a fast thorax model suitable for simulating lung motion due to respiration using only one CT dataset. Materials and Methods: For each of six patients with different thorax sizes, two sets of CT images were obtained in single-breath-hold inhale and exhale stages in the supine position. The CT images were then analyzed by measurements of the displacements due to respiration in the thorax region. Lung and thorax were 3D reconstructed and then transferred to the ABAQUS software for biomechanical fast finite element (FFE) modeling. The FFE model parameters were tuned based on three of the patients, and then was tested in a predictive mode for the remaining patients to ...
As radiotherapy has become increasingly conformal, geometric uncertainties caused by breathing and o...
Finite element analysis (FEA)-based biomechanical modeling can be used to predict lung respiratory m...
A novel technique is proposed to develop a biomechanical model for estimating lung’s tumor position ...
International audiencePrediction of respiratory motion has the potential tosubstantially improve can...
The uncertainties due to respiratory motion present significant challenges to accurate characterizat...
Purpose: The purpose of this dissertation is to quantitatively characterize and predict lung tissue...
International audienceTumor motion during irradiation reduces target coverage and increases dose to ...
International audienceThe goal of this paper is to calculate a complex internal respiratory and tumo...
Diseases affecting the respiratory system are among the most common and deadliest worldwide. The abi...
Intensity modulated radiation therapy (IMRT) for cancers in the lung remains challenging due to the ...
International audienceIn this chapter, we evaluate the 3D tumor trajectories from patient-specific b...
A biomechanical model is proposed to predict deflated lung tumor motion caused by diaphragm respirat...
In this paper, we present a real-time simulation and visualization framework that models a deformabl...
Radiation therapy (RT) is an important component of treatment for lung cancer. However, the accuracy...
International audienceDetailed internal information of lung morphology is made possible by the adven...
As radiotherapy has become increasingly conformal, geometric uncertainties caused by breathing and o...
Finite element analysis (FEA)-based biomechanical modeling can be used to predict lung respiratory m...
A novel technique is proposed to develop a biomechanical model for estimating lung’s tumor position ...
International audiencePrediction of respiratory motion has the potential tosubstantially improve can...
The uncertainties due to respiratory motion present significant challenges to accurate characterizat...
Purpose: The purpose of this dissertation is to quantitatively characterize and predict lung tissue...
International audienceTumor motion during irradiation reduces target coverage and increases dose to ...
International audienceThe goal of this paper is to calculate a complex internal respiratory and tumo...
Diseases affecting the respiratory system are among the most common and deadliest worldwide. The abi...
Intensity modulated radiation therapy (IMRT) for cancers in the lung remains challenging due to the ...
International audienceIn this chapter, we evaluate the 3D tumor trajectories from patient-specific b...
A biomechanical model is proposed to predict deflated lung tumor motion caused by diaphragm respirat...
In this paper, we present a real-time simulation and visualization framework that models a deformabl...
Radiation therapy (RT) is an important component of treatment for lung cancer. However, the accuracy...
International audienceDetailed internal information of lung morphology is made possible by the adven...
As radiotherapy has become increasingly conformal, geometric uncertainties caused by breathing and o...
Finite element analysis (FEA)-based biomechanical modeling can be used to predict lung respiratory m...
A novel technique is proposed to develop a biomechanical model for estimating lung’s tumor position ...