Objectives Accurate reconstruction and visualisation of soft tissue deformation in real time is crucial in image-guided surgery, particularly in augmented reality (AR) applications. Current deformation models are characterised by a trade-off between accuracy and computational speed. We propose an approach to derive a patient-specific deformation model for brain pathologies by combining the results of pre-computed finite element method (FEM) simulations with machine learning algorithms. The models can be computed instantaneously and offer an accuracy comparable to FEM models. Method A brain tumour is used as the subject of the deformation model. Load-driven FEM simulations are performed on a tetrahedral brain mesh afflicted by a tumour. Forc...
Computational biomechanics of the brain for neurosurgery is an emerging area of research recently ga...
Abstract. The finite element method is applied to the biomechanics of brain tissue deformation. Emph...
Background and objectives: An accurate and real-time model of soft tissue is critical for surgical s...
This work has been done as a part of scientific deliverable 4.1 of ITN Rainbow.(https://rainbow.ku.d...
Background Surgical simulation systems can be used to estimate soft tissue deformation during pre- a...
Estimation of brain deformation plays an important role in computer-aided therapy and image-guided n...
In breast cancer treatment, surgery is one of the most common practices [DeSantis et al., 2019]. The...
Correctly capturing intraoperative brain shift in image-guided neurosurgical procedures is a critica...
The Physics-based Non-Rigid Registration (PBNRR) framework allows for accurate real-time medical ima...
The computational power and advantages of the Finite Element Method (FEM) are noticeable. When deali...
Abstract. Patient-specific biomechanical models implemented using specialized nonlinear (i.e. taking...
International audienceIn this paper we present a methodology to address the problem of brain tissue ...
Robotic patients show great potential for helping to improve medical palpation training, as they can...
The objective of our research is to create a system computing brain deformations. We have in view bo...
Treatment of breast cancer involves two stages: diagnosis and treatment. It is difficult to correla...
Computational biomechanics of the brain for neurosurgery is an emerging area of research recently ga...
Abstract. The finite element method is applied to the biomechanics of brain tissue deformation. Emph...
Background and objectives: An accurate and real-time model of soft tissue is critical for surgical s...
This work has been done as a part of scientific deliverable 4.1 of ITN Rainbow.(https://rainbow.ku.d...
Background Surgical simulation systems can be used to estimate soft tissue deformation during pre- a...
Estimation of brain deformation plays an important role in computer-aided therapy and image-guided n...
In breast cancer treatment, surgery is one of the most common practices [DeSantis et al., 2019]. The...
Correctly capturing intraoperative brain shift in image-guided neurosurgical procedures is a critica...
The Physics-based Non-Rigid Registration (PBNRR) framework allows for accurate real-time medical ima...
The computational power and advantages of the Finite Element Method (FEM) are noticeable. When deali...
Abstract. Patient-specific biomechanical models implemented using specialized nonlinear (i.e. taking...
International audienceIn this paper we present a methodology to address the problem of brain tissue ...
Robotic patients show great potential for helping to improve medical palpation training, as they can...
The objective of our research is to create a system computing brain deformations. We have in view bo...
Treatment of breast cancer involves two stages: diagnosis and treatment. It is difficult to correla...
Computational biomechanics of the brain for neurosurgery is an emerging area of research recently ga...
Abstract. The finite element method is applied to the biomechanics of brain tissue deformation. Emph...
Background and objectives: An accurate and real-time model of soft tissue is critical for surgical s...