The surgical treatment of injuries to the spine often requires the placement of pedicle screws. To prevent damage to nearby blood vessels and nerves, the individual vertebrae and their surrounding tissue must be precisely localized. To aid surgical planning in this context we present a clinically applicable geometric flow based method to segment the human spinal column from computed tomography (CT) scans. We first apply anisotropic diffusion and flux computation to mitigate the effects of region inhomogeneities and partial volume effects at vertebral boundaries in such data. The first pipeline of our segmentation approach uses a region-based geometric flow, requires only a single manually identified seed point to initiate, and runs efficien...
In this article, we present a graph-based method using a cubic template for volumetric segmentation ...
A multiple center milestone study of clinical vertebra segmentation is presented in this paper. Vert...
We propose a semi-automatic algorithm for the segmentation of vertebral bodies in magnetic resonance...
Surgical treatment of spine-related injuries requires the placement of pedicle screws. Precise local...
In this doctoral thesis, the design of algorithms enabling the implementation of a fully automatic s...
International audienceThe goal of this research is reconstructing patient-specific segmented 3-dimen...
Purpose The purpose of this paper is to present and validate a new semi-automated 3D surface mesh se...
In this paper we present an~efficient and robust vertebra segmentation algorithm for CT data. It pro...
Automatic localization and identification of vertebrae in medical images of the spine are core requi...
Medical Image Processing is a growing field in medicine and plays an important role in medical decis...
Abstract—Accurate segmentation of the spinal canals in com-puted tomography (CT) images is an import...
The accurate segmentation and identification of vertebrae presents the foundations for spine analysi...
International audienceVertebrae localization, segmentation and identification in CT images is key to...
In this article, we present a graph-based method using a cubic template for volumetric segmentation ...
Segmentation of vertebral bodies is useful for diagnosis of certain spine pathologies, such as scoli...
In this article, we present a graph-based method using a cubic template for volumetric segmentation ...
A multiple center milestone study of clinical vertebra segmentation is presented in this paper. Vert...
We propose a semi-automatic algorithm for the segmentation of vertebral bodies in magnetic resonance...
Surgical treatment of spine-related injuries requires the placement of pedicle screws. Precise local...
In this doctoral thesis, the design of algorithms enabling the implementation of a fully automatic s...
International audienceThe goal of this research is reconstructing patient-specific segmented 3-dimen...
Purpose The purpose of this paper is to present and validate a new semi-automated 3D surface mesh se...
In this paper we present an~efficient and robust vertebra segmentation algorithm for CT data. It pro...
Automatic localization and identification of vertebrae in medical images of the spine are core requi...
Medical Image Processing is a growing field in medicine and plays an important role in medical decis...
Abstract—Accurate segmentation of the spinal canals in com-puted tomography (CT) images is an import...
The accurate segmentation and identification of vertebrae presents the foundations for spine analysi...
International audienceVertebrae localization, segmentation and identification in CT images is key to...
In this article, we present a graph-based method using a cubic template for volumetric segmentation ...
Segmentation of vertebral bodies is useful for diagnosis of certain spine pathologies, such as scoli...
In this article, we present a graph-based method using a cubic template for volumetric segmentation ...
A multiple center milestone study of clinical vertebra segmentation is presented in this paper. Vert...
We propose a semi-automatic algorithm for the segmentation of vertebral bodies in magnetic resonance...