A physics-based medical image segmentation method is developed. Specifically, the image greyscale intensity is used to infer the voxel partial volumes and subsequently formulate a porous medium analogy. The method involves first translating the medical image volumetric data into a three-dimensional computational domain of a porous material. A velocity field is then obtained from numerical simulations of incompressible fluid flow in the porous material, and finally a velocity iso-surface provides the surface description of the target object. The approach is tested on CT images of eight patient-specific cases, where cerebral aneurysms, nasal cavities (NC), and an aortic arch (AA) are the objects of interest. In the aneurysm cases, the results...
Often in neurosurgical planning a dual echo acquisition is performed that yields proton density (PD...
Though providing vital means for the visualization, diagnosis, and quantification of decision-making...
This thesis investigates the feasibility of using fluid flow as a deformable model for segmenting ve...
A physics-based medical image segmentation method is developed. Specifically, the image greyscale in...
Patient-specific haemodynamic technology is being increasingly utilised in clinical applications. Un...
Various physiological modelling studies require isolating the anatomy of interest from medical imag...
Patient-specific haemodynamic technology has been applied in clinical applications. Computational ha...
A general framework for image segmentation is presented in this paper, based on the paradigm of wate...
Patient-specific hemodynamic technology has been applied in clinical applications. However, the proc...
Patient-specific hemodynamic technology has been applied in clinical applications. However, the proc...
We present a new image segmentation technique based on the paradigm of water flow and apply it to me...
Image segmentation is the problem of partitioning an image into meaningful parts, often consisting o...
Empirical thesis.Includes bibliographical references.1. Introduction -- 2. Medical image acquisition...
Medical imaging is nowadays much more than only providing data for diagnosis. It also links 'classic...
The diagnostic assessment of cerebrovascular disease makes use of computational simulation as a pred...
Often in neurosurgical planning a dual echo acquisition is performed that yields proton density (PD...
Though providing vital means for the visualization, diagnosis, and quantification of decision-making...
This thesis investigates the feasibility of using fluid flow as a deformable model for segmenting ve...
A physics-based medical image segmentation method is developed. Specifically, the image greyscale in...
Patient-specific haemodynamic technology is being increasingly utilised in clinical applications. Un...
Various physiological modelling studies require isolating the anatomy of interest from medical imag...
Patient-specific haemodynamic technology has been applied in clinical applications. Computational ha...
A general framework for image segmentation is presented in this paper, based on the paradigm of wate...
Patient-specific hemodynamic technology has been applied in clinical applications. However, the proc...
Patient-specific hemodynamic technology has been applied in clinical applications. However, the proc...
We present a new image segmentation technique based on the paradigm of water flow and apply it to me...
Image segmentation is the problem of partitioning an image into meaningful parts, often consisting o...
Empirical thesis.Includes bibliographical references.1. Introduction -- 2. Medical image acquisition...
Medical imaging is nowadays much more than only providing data for diagnosis. It also links 'classic...
The diagnostic assessment of cerebrovascular disease makes use of computational simulation as a pred...
Often in neurosurgical planning a dual echo acquisition is performed that yields proton density (PD...
Though providing vital means for the visualization, diagnosis, and quantification of decision-making...
This thesis investigates the feasibility of using fluid flow as a deformable model for segmenting ve...