This paper presents an algorithm for non-rigid registration of breast MRI follow-up images that compensates for differences in patient positioning while maintaining real anatomical and pathological changes. The proposed method uses a biomechanical model to constrain the deformation of the internal breast tissue according to elastic continuum mechanics, which is driven by suitable boundary conditions that align the breast surfaces in the images to be registered. Typically, such boundary conditions impose one-to-one surface point correspondences that are established a priori. We investigate alternative, more flexible boundary conditions that do not depend on fixed point correspondences and do not assume completely accurate breast surface segm...
We have developed a nonrigid registration technique applicable to breast tissue imaging. It relies o...
When doing high field (1.5T) magnetic resonance breast imaging, the use of compression plate during ...
AbstractMagnetic resonance image analysis is a promising technique for diagnosing breast cancer, par...
Preoperative diagnostic magnetic resonance (MR) breast images can provide good contrast between diff...
Biomechanical modelling enables large deformation simulations of breast tissues under different load...
Background: The strategy to combat the problem associated with large deformations in the breast due ...
A novel method for the deformable image registration of follow-up breast magnetic resonance (MR) ima...
We investigated nonrigid co-registration of PET and MR breast images to improve diagnostic specifici...
We propose a finite-element method (FEM) deformable breast model that does not require elastic breas...
Recently it has been suggested that finite element methods could be used to predict breast deformati...
We have developed a nonrigid registration technique applicable to breast tissue imaging. It relies o...
We implemented an iterative nonrigid registration algorithm to accurately combine functional (PET) a...
Deformable motion correction has become a fundamental image processing task for the quantitative ana...
Item does not contain fulltextDetermining corresponding regions between an MRI and an X-ray mammogra...
A new nonrigid 3D medical breast-image registration approach that relies on a finite element method ...
We have developed a nonrigid registration technique applicable to breast tissue imaging. It relies o...
When doing high field (1.5T) magnetic resonance breast imaging, the use of compression plate during ...
AbstractMagnetic resonance image analysis is a promising technique for diagnosing breast cancer, par...
Preoperative diagnostic magnetic resonance (MR) breast images can provide good contrast between diff...
Biomechanical modelling enables large deformation simulations of breast tissues under different load...
Background: The strategy to combat the problem associated with large deformations in the breast due ...
A novel method for the deformable image registration of follow-up breast magnetic resonance (MR) ima...
We investigated nonrigid co-registration of PET and MR breast images to improve diagnostic specifici...
We propose a finite-element method (FEM) deformable breast model that does not require elastic breas...
Recently it has been suggested that finite element methods could be used to predict breast deformati...
We have developed a nonrigid registration technique applicable to breast tissue imaging. It relies o...
We implemented an iterative nonrigid registration algorithm to accurately combine functional (PET) a...
Deformable motion correction has become a fundamental image processing task for the quantitative ana...
Item does not contain fulltextDetermining corresponding regions between an MRI and an X-ray mammogra...
A new nonrigid 3D medical breast-image registration approach that relies on a finite element method ...
We have developed a nonrigid registration technique applicable to breast tissue imaging. It relies o...
When doing high field (1.5T) magnetic resonance breast imaging, the use of compression plate during ...
AbstractMagnetic resonance image analysis is a promising technique for diagnosing breast cancer, par...