We propose a finite-element method (FEM) deformable breast model that does not require elastic breast data for nonrigid PET/MRI breast image registration. The model is applicable only if the stress conditions in the imaged breast are virtually the same in PET and MRI. Under these conditions, the observed intermodality displacements are solely due the imaging/reconstruction process. Similar stress conditions are assured by use of an MRI breast-antenna replica for breast support during PET, and use of the same positioning. The tetrahedral volume and triangular surface elements are used to construct the FEM mesh from the MRI image. Our model requires a number of fiducial skin markers (FSM) visible in PET and MRI. The displacement vectors of FS...
Currently, High Field (1.5T) Superconducting MR imaging does not allow live guidance during needle b...
Background: The strategy to combat the problem associated with large deformations in the breast due ...
Predicting breast tissue deformation is of great significance in several medical applications such a...
We implemented an iterative nonrigid registration algorithm to accurately combine functional (PET) a...
We investigated nonrigid co-registration of PET and MR breast images to improve diagnostic specifici...
We are developing a method using nonrigid co-registration of PET and MR breast images as a way to im...
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...
We have developed a nonrigid registration technique applicable to breast tissue imaging. It relies o...
We implemented a new approach to intramodal non-rigid 3D breast image registration. Our method uses ...
This study was undertaken to correct for motion artifacts in dynamic breast F-18-FDG PET/CT images, ...
We implemented a new approach to intramodal non-rigid 3D breast image registration. Our method uses ...
We have developed and tested a new simple computerized finite element method (FEM) approach to MR-to...
When doing high field (1.5T) magnetic resonance breast imaging, the use of compression plate during ...
Rationale and Objectives. Live guidance during needle breast procedures is not currently possible wi...
Currently, High Field (1.5T) Superconducting MR imaging does not allow live guidance during needle b...
Background: The strategy to combat the problem associated with large deformations in the breast due ...
Predicting breast tissue deformation is of great significance in several medical applications such a...
We implemented an iterative nonrigid registration algorithm to accurately combine functional (PET) a...
We investigated nonrigid co-registration of PET and MR breast images to improve diagnostic specifici...
We are developing a method using nonrigid co-registration of PET and MR breast images as a way to im...
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...
We have developed a nonrigid registration technique applicable to breast tissue imaging. It relies o...
We implemented a new approach to intramodal non-rigid 3D breast image registration. Our method uses ...
This study was undertaken to correct for motion artifacts in dynamic breast F-18-FDG PET/CT images, ...
We implemented a new approach to intramodal non-rigid 3D breast image registration. Our method uses ...
We have developed and tested a new simple computerized finite element method (FEM) approach to MR-to...
When doing high field (1.5T) magnetic resonance breast imaging, the use of compression plate during ...
Rationale and Objectives. Live guidance during needle breast procedures is not currently possible wi...
Currently, High Field (1.5T) Superconducting MR imaging does not allow live guidance during needle b...
Background: The strategy to combat the problem associated with large deformations in the breast due ...
Predicting breast tissue deformation is of great significance in several medical applications such a...