Segmenting cerebral blood vessels is of great importance in diagnostic and clinical applications, especially in quantitative diagnostics and surgery on aneurysms and arteriovenous malformations (AVM). Segmentation of CT angiography images requires algorithms robust to high intensity noise, while being able to segment low-contrast vessels. Because of this, most of the existing methods require user intervention. In this work we propose an automatic algorithm for efficient segmentation of 3-D CT angiography images of cerebral blood vessels. Our method is robust to high intensity noise and is able to accurately segment blood vessels with high range of luminance values, as well as low-contrast vessels
Medical imaging is nowadays much more than only providing data for diagnosis. It also links 'classic...
Medical imaging is an important part of the clinical workflow. With the increasing amount and comple...
AbstractThis paper presents a reconstruction process to build the three-dimensional structure of cer...
This thesis deals with the design, implementation and testing of an algorithm for segmentation of ce...
PurposePrecise quantification of cerebral arteries can help with differentiation and prognostication...
Segmentation of cerebral blood vessels is of great importance in diagnostic and clinical application...
Abstract—The main aim of the work is to develop an algorithm for creation of three-dimensional model...
International audienceBackgroundCerebrovascular segmentation plays an important role in medical diag...
PURPOSE: CT angiography (CTA) scans are the current standard for vascular analysis of patients with ...
In this thesis we develop and validate novel image processing techniques for the analysis of vascula...
One of the key tasks involved in processing of CT angiography image data is the vascular system segm...
Cerebrovascular disease, in particular intracranial atherosclerotic stenosis and cerebral aneurysm, ...
Accurate detection and segmentation of intracranial aneurysms plays an important role in diagnosing ...
Cerebrovascular diseases are one of the serious causes for the increase in mortality rate in the wor...
In diagnosing diseases and planning surgeries the structure and length of blood vessels is of great ...
Medical imaging is nowadays much more than only providing data for diagnosis. It also links 'classic...
Medical imaging is an important part of the clinical workflow. With the increasing amount and comple...
AbstractThis paper presents a reconstruction process to build the three-dimensional structure of cer...
This thesis deals with the design, implementation and testing of an algorithm for segmentation of ce...
PurposePrecise quantification of cerebral arteries can help with differentiation and prognostication...
Segmentation of cerebral blood vessels is of great importance in diagnostic and clinical application...
Abstract—The main aim of the work is to develop an algorithm for creation of three-dimensional model...
International audienceBackgroundCerebrovascular segmentation plays an important role in medical diag...
PURPOSE: CT angiography (CTA) scans are the current standard for vascular analysis of patients with ...
In this thesis we develop and validate novel image processing techniques for the analysis of vascula...
One of the key tasks involved in processing of CT angiography image data is the vascular system segm...
Cerebrovascular disease, in particular intracranial atherosclerotic stenosis and cerebral aneurysm, ...
Accurate detection and segmentation of intracranial aneurysms plays an important role in diagnosing ...
Cerebrovascular diseases are one of the serious causes for the increase in mortality rate in the wor...
In diagnosing diseases and planning surgeries the structure and length of blood vessels is of great ...
Medical imaging is nowadays much more than only providing data for diagnosis. It also links 'classic...
Medical imaging is an important part of the clinical workflow. With the increasing amount and comple...
AbstractThis paper presents a reconstruction process to build the three-dimensional structure of cer...