Add to ORKGInternational audienceThe aim of this work is to develop a biomechanical Finite Element (FE) breast model in order to analyze different breast compression strategies and their impact on image quality. Large breast deformations will be simulated using this FE model. A particular attention will be granted to the computation of the initial stress in the model due to gravity and to boundary conditions imposed by the thorax anatomy. Finally, the model will be validated by comparing the estimated breast deformations under gravity load with the experimental ones measured in three body positions: prone, supine and oblique supine
Associate Editor Karol Miller oversaw the review of this article. Abstract—Prone-to-supine breast im...
Recently it has been suggested that finite element methods could be used to predict breast deformati...
When doing high field (1.5T) magnetic resonance breast imaging, the use of compression plate during ...
International audienceMammography is a specific type of breast imaging that uses low-dose X-rays to ...
International audienceBackground: Mammography is a specific type of breast imaging that uses low-dos...
This thesis presents research that was conducted to develop anatomically realis-tic finite element m...
This thesis presents research that was conducted to develop anatomically realis-tic finite element m...
International audienceMammography is currently the primary imaging modality for breast cancer screen...
The large deformation of the human breast threatens proper nodules tracking when the subject mammogr...
Advanced modeling of female bust behaviour in static or dynamic must consider the biological of each...
Several methods have been proposed to simulate large breast compressions such as those occurring dur...
Researchers have developed finite element (FE) models from preoperative medical images to simulate i...
Purpose: Malignant breast lesions can be distinguished from benign lesions by their mechanical prope...
Digital mammography has become a first-line diagnostic tool for clinical breast cancer screening due...
Purpose: Malignant breast lesions can be distinguished from benign lesions by their mechanical prope...
Associate Editor Karol Miller oversaw the review of this article. Abstract—Prone-to-supine breast im...
Recently it has been suggested that finite element methods could be used to predict breast deformati...
When doing high field (1.5T) magnetic resonance breast imaging, the use of compression plate during ...
International audienceMammography is a specific type of breast imaging that uses low-dose X-rays to ...
International audienceBackground: Mammography is a specific type of breast imaging that uses low-dos...
This thesis presents research that was conducted to develop anatomically realis-tic finite element m...
This thesis presents research that was conducted to develop anatomically realis-tic finite element m...
International audienceMammography is currently the primary imaging modality for breast cancer screen...
The large deformation of the human breast threatens proper nodules tracking when the subject mammogr...
Advanced modeling of female bust behaviour in static or dynamic must consider the biological of each...
Several methods have been proposed to simulate large breast compressions such as those occurring dur...
Researchers have developed finite element (FE) models from preoperative medical images to simulate i...
Purpose: Malignant breast lesions can be distinguished from benign lesions by their mechanical prope...
Digital mammography has become a first-line diagnostic tool for clinical breast cancer screening due...
Purpose: Malignant breast lesions can be distinguished from benign lesions by their mechanical prope...
Associate Editor Karol Miller oversaw the review of this article. Abstract—Prone-to-supine breast im...
Recently it has been suggested that finite element methods could be used to predict breast deformati...
When doing high field (1.5T) magnetic resonance breast imaging, the use of compression plate during ...