We have developed and tested a new simple computerized finite element method (FEM) approach to MR-to-PET nonrigid breast-image registration. The method requires five-nine fiducial skin markers (FSMs) visible in MRI and PET that need to be located in the same spots on the breast and two on the flanks during both scans. Patients need to be similarly positioned prone during MRI and PET scans. This is accomplished by means of a low gamma-ray attenuation breast coil replica used as the breast support during the PET scan. We demonstrate that, under such conditions, the observed FSM displacement vectors between MR and PET images, distributed piecewise linearly over the breast volume, produce a deformed FEM mesh that reasonably approximates nonrigi...
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...
The objectives of this investigation are to improve quality of subtraction MR breast images and impr...
We implemented an iterative nonrigid registration algorithm to accurately combine functional (PET) a...
We propose a finite-element method (FEM) deformable breast model that does not require elastic breas...
We investigated nonrigid co-registration of PET and MR breast images to improve diagnostic specifici...
A new nonrigid 3D medical breast-image registration approach that relies on a finite element method ...
We are developing a method using nonrigid co-registration of PET and MR breast images as a way to im...
This study was undertaken to develop a nonsurgical breast biopsy from Gd-DTPA Contrast Enhanced Magn...
The benefit of registration and fusion of functional images with anatomical images is well appreciat...
This study was undertaken to correct for motion artifacts in dynamic breast F-18-FDG PET/CT images, ...
We have developed a nonrigid registration technique applicable to breast tissue imaging. It relies o...
We have developed a nonrigid registration technique applicable to breast tissue imaging. It relies o...
AbstractMagnetic resonance image analysis is a promising technique for diagnosing breast cancer, par...
We implemented a new approach to intramodal non-rigid 3D breast image registration. Our method uses ...
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...
The objectives of this investigation are to improve quality of subtraction MR breast images and impr...
We implemented an iterative nonrigid registration algorithm to accurately combine functional (PET) a...
We propose a finite-element method (FEM) deformable breast model that does not require elastic breas...
We investigated nonrigid co-registration of PET and MR breast images to improve diagnostic specifici...
A new nonrigid 3D medical breast-image registration approach that relies on a finite element method ...
We are developing a method using nonrigid co-registration of PET and MR breast images as a way to im...
This study was undertaken to develop a nonsurgical breast biopsy from Gd-DTPA Contrast Enhanced Magn...
The benefit of registration and fusion of functional images with anatomical images is well appreciat...
This study was undertaken to correct for motion artifacts in dynamic breast F-18-FDG PET/CT images, ...
We have developed a nonrigid registration technique applicable to breast tissue imaging. It relies o...
We have developed a nonrigid registration technique applicable to breast tissue imaging. It relies o...
AbstractMagnetic resonance image analysis is a promising technique for diagnosing breast cancer, par...
We implemented a new approach to intramodal non-rigid 3D breast image registration. Our method uses ...
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...
The objectives of this investigation are to improve quality of subtraction MR breast images and impr...