Abstract This paper presents a new hybrid biomechanical model-based non-rigid image registration method for lung motion estimation. In the proposed method, a patient-specific biomechanical modelling process captures major physically realistic deformations with explicit physical modelling of sliding motion, whilst a subsequent non-rigid image registration process compensates for small residuals. The proposed algorithm was evaluated with 10 4D CT datasets of lung cancer patients. The target registration error (TRE), defined as the Euclidean distance of landmark pairs, was significantly lower with the proposed method (TRE = 1.37 mm) than with biomechanical modelling (TRE = 3.81 mm) and intensity-based image registration without specific consid...
International audienceA main challenge in radiotherapy is to precisely take into account organs defo...
In the context of cancer treatment using radiation beams, it is crucial to locate accurately the tum...
PURPOSE: Current clinical practice for lung cancer diagnosis and staging requires the acquisition of...
This paper presents a new hybrid biomechanical model-based non-rigid image registration method for l...
Accurate estimation of motion field in respiration-correlated 4DCT images, is a precondition for the...
Finite element analysis (FEA)-based biomechanical modeling can be used to predict lung respiratory m...
Radiation therapy (RT) is an important component of treatment for lung cancer. However, the accuracy...
We propose an effective 4D image registration algorithm for dynamic volumetric lung images. The regi...
We propose an effective 4D image registration algorithm for dynamic volumetric lung images. The regi...
International audienceDetailed internal information of lung morphology is made possible by the adven...
This paper presents a novel method for multi-modal lung image registration constrained by a motion m...
In this paper, we propose a new strategy for modelling sliding conditions when registering 3D images...
International audienceThe goal of this paper is to calculate a complex internal respiratory and tumo...
Medical imaging has seen a rapid development in its clinical use in assessment of treatment outcome,...
Accurate pulmonary image registration is a challenging problem when the lungs have a deformation wit...
International audienceA main challenge in radiotherapy is to precisely take into account organs defo...
In the context of cancer treatment using radiation beams, it is crucial to locate accurately the tum...
PURPOSE: Current clinical practice for lung cancer diagnosis and staging requires the acquisition of...
This paper presents a new hybrid biomechanical model-based non-rigid image registration method for l...
Accurate estimation of motion field in respiration-correlated 4DCT images, is a precondition for the...
Finite element analysis (FEA)-based biomechanical modeling can be used to predict lung respiratory m...
Radiation therapy (RT) is an important component of treatment for lung cancer. However, the accuracy...
We propose an effective 4D image registration algorithm for dynamic volumetric lung images. The regi...
We propose an effective 4D image registration algorithm for dynamic volumetric lung images. The regi...
International audienceDetailed internal information of lung morphology is made possible by the adven...
This paper presents a novel method for multi-modal lung image registration constrained by a motion m...
In this paper, we propose a new strategy for modelling sliding conditions when registering 3D images...
International audienceThe goal of this paper is to calculate a complex internal respiratory and tumo...
Medical imaging has seen a rapid development in its clinical use in assessment of treatment outcome,...
Accurate pulmonary image registration is a challenging problem when the lungs have a deformation wit...
International audienceA main challenge in radiotherapy is to precisely take into account organs defo...
In the context of cancer treatment using radiation beams, it is crucial to locate accurately the tum...
PURPOSE: Current clinical practice for lung cancer diagnosis and staging requires the acquisition of...