Add to ORKGAbstract—A biomechanical model of the brain is presented, using a finite-element formulation. Emphasis is given to the modeling of the soft-tissue deformations induced by the growth of tumors and its application to the registration of anatomical atlases, with images from patients presenting such pathologies. First, an estimate of the anatomy prior to the tumor growth is obtained through a simulated biomechanical contraction of the tumor region. Then a normal-to-normal atlas registration to this estimated pre-tumor anatomy is applied. Finally, the deformation from the tumor-growth model is applied to the resultant regis-tered atlas, producing an atlas that has been deformed to fully register to the patient images. The process of tumor growth...
This abstract presents the biomechanical model that is used in the European ContraCancrum project, a...
The objective of our research is to create a system computing brain deformations. We have in view bo...
We propose a method for brain atlas deformation in the presence of large space-occupying tumors, bas...
Abstract. The finite element method is applied to the biomechanics of brain tissue deformation. Emph...
A deformable registration method is proposed to register a brain atlas with tumor-bearing brain scan...
Image-based modeling of tumor growth combines methods from cancer simulation and medical imaging. In...
Abstract—Simulating the brain tissue deformation caused by tumor growth has been found to aid the de...
Abstract. An approach to deformable registration of three-dimensional brain tumor images to a normal...
Estimation of brain deformation plays an important role in computer-aided therapy and image-guided n...
Image-based modeling of tumor growth combines methods from cancer simulation and medical imaging. In...
Abstract. State-of-the art algorithms for deformable image registration are based on the min-imizati...
State-of-the art algorithms for deformable image registration are based on the minimization of an im...
Abstract. This paper presents an approach for deformable registration of a normal brain atlas to vis...
Brain tumours are among the deadliest types of cancer, since they display a strong ability to invade...
We present an automatic method to segment brain tissues from volumetric MRI brain tumor images. The ...
This abstract presents the biomechanical model that is used in the European ContraCancrum project, a...
The objective of our research is to create a system computing brain deformations. We have in view bo...
We propose a method for brain atlas deformation in the presence of large space-occupying tumors, bas...
Abstract. The finite element method is applied to the biomechanics of brain tissue deformation. Emph...
A deformable registration method is proposed to register a brain atlas with tumor-bearing brain scan...
Image-based modeling of tumor growth combines methods from cancer simulation and medical imaging. In...
Abstract—Simulating the brain tissue deformation caused by tumor growth has been found to aid the de...
Abstract. An approach to deformable registration of three-dimensional brain tumor images to a normal...
Estimation of brain deformation plays an important role in computer-aided therapy and image-guided n...
Image-based modeling of tumor growth combines methods from cancer simulation and medical imaging. In...
Abstract. State-of-the art algorithms for deformable image registration are based on the min-imizati...
State-of-the art algorithms for deformable image registration are based on the minimization of an im...
Abstract. This paper presents an approach for deformable registration of a normal brain atlas to vis...
Brain tumours are among the deadliest types of cancer, since they display a strong ability to invade...
We present an automatic method to segment brain tissues from volumetric MRI brain tumor images. The ...
This abstract presents the biomechanical model that is used in the European ContraCancrum project, a...
The objective of our research is to create a system computing brain deformations. We have in view bo...
We propose a method for brain atlas deformation in the presence of large space-occupying tumors, bas...