Although ultrasound (US) images represent the most popular modality for guiding breast biopsy, they are sometimes unable to render malignant regions, thus preventing accurate lesion localization which is essential for a successful procedure. Biomechanical models can support the localization of suspicious areas identified on a pre-operative image during US scanning since they are able to account for anatomical deformations resulting from US probe pressure. We propose a deformation model which relies on position-based dynamics (PBD) approach to predict the displacement of internal targets induced by probe interaction during US acquisition. The PBD implementation available in NVIDIA FleX is exploited to create an anatomical model capable of de...
Currently, High Field (1.5T) Superconducting MR image-guided needle breast procedures allow the phys...
Soft tissue displacements during minimally invasive surgical procedures may cause target motion and ...
Soft tissue displacements during minimally invasive surgical procedures may cause target motion and ...
Although ultrasound (US) images represent the most popular modality for guiding breast biopsy, they ...
International audiencePurpose Although ultrasound (US) images represent the most popular modality fo...
Purpose: Although ultrasound (US) images represent the most popular modality for guiding breast biop...
Realistic and fast simulation of anatomical deformations due to ultrasound probe pressure is of outs...
International audienceIn the context of ultrasound (US) guided breast biopsy, image fusion technique...
A new method for clinical breast biopsy is presented, based on a deformable finite element model of ...
Background: Breast-conserving surgery is the most acceptable option for breast cancer removal from a...
Purpose: Biomechanical simulation of anatomical deformations caused by ultrasound probe pressure is ...
Nearly 15-40% of patients who undergo Breast Conserving Surgery (BCS) require a repeat procedure to ...
In breast cancer treatment, surgery is one of the most common practices [DeSantis et al., 2019]. The...
The modeling of breast deformations is of interest in medical applications such as image-guided biop...
International audienceIn several medical applications such as liver or kidney biopsies, an anatomica...
Currently, High Field (1.5T) Superconducting MR image-guided needle breast procedures allow the phys...
Soft tissue displacements during minimally invasive surgical procedures may cause target motion and ...
Soft tissue displacements during minimally invasive surgical procedures may cause target motion and ...
Although ultrasound (US) images represent the most popular modality for guiding breast biopsy, they ...
International audiencePurpose Although ultrasound (US) images represent the most popular modality fo...
Purpose: Although ultrasound (US) images represent the most popular modality for guiding breast biop...
Realistic and fast simulation of anatomical deformations due to ultrasound probe pressure is of outs...
International audienceIn the context of ultrasound (US) guided breast biopsy, image fusion technique...
A new method for clinical breast biopsy is presented, based on a deformable finite element model of ...
Background: Breast-conserving surgery is the most acceptable option for breast cancer removal from a...
Purpose: Biomechanical simulation of anatomical deformations caused by ultrasound probe pressure is ...
Nearly 15-40% of patients who undergo Breast Conserving Surgery (BCS) require a repeat procedure to ...
In breast cancer treatment, surgery is one of the most common practices [DeSantis et al., 2019]. The...
The modeling of breast deformations is of interest in medical applications such as image-guided biop...
International audienceIn several medical applications such as liver or kidney biopsies, an anatomica...
Currently, High Field (1.5T) Superconducting MR image-guided needle breast procedures allow the phys...
Soft tissue displacements during minimally invasive surgical procedures may cause target motion and ...
Soft tissue displacements during minimally invasive surgical procedures may cause target motion and ...