AbstractIn this paper we present a novel label fusion algorithm suited for scenarios in which different manual delineation protocols with potentially disparate structures have been used to annotate the training scans (hereafter referred to as “atlases”). Such scenarios arise when atlases have missing structures, when they have been labeled with different levels of detail, or when they have been taken from different heterogeneous databases. The proposed algorithm can be used to automatically label a novel scan with any of the protocols from the training data. Further, it enables us to generate new labels that are not present in any delineation protocol by defining intersections on the underling labels. We first use probabilistic models of la...
Recently, multi-atlas patch-based label fusion has received an increasing interest in the medical im...
Recently, multi-atlas patch-based label fusion has achieved many successes in medical imaging area. ...
International audienceWhite matter pathologies such as tumors or traumatic brain injury disrupt the ...
In this paper we present a novel label fusion algorithm suited for scenarios in which different manu...
AbstractIn this paper we present a novel label fusion algorithm suited for scenarios in which differ...
Multi-atlas segmentation is an effective approach for automatically labeling objects of interest in ...
We propose a nonparametric, probabilistic model for the automatic segmentation of medical images, gi...
Automated labeling of anatomical structures in medical images is very important in many neuroscience...
Label fusion based multi-atlas segmentation has proven to be one of the most competitive techniques ...
Labeling or segmentation of structures of interest in medical imaging plays an essential role in bot...
The aim of this paper is to develop a probabilistic modeling framework for the segmentation of struc...
The automatic segmentation of interest structures is devoted to the morphological analysis of brain ...
In a multi-atlas based segmentation procedure, propagated atlas segmentations must be combined in a ...
In multi-atlas based segmentation, a target image is segmented by registering multiple atlas images ...
In brain structural segmentation, multi-atlas strategies are increasingly being used over single-atl...
Recently, multi-atlas patch-based label fusion has received an increasing interest in the medical im...
Recently, multi-atlas patch-based label fusion has achieved many successes in medical imaging area. ...
International audienceWhite matter pathologies such as tumors or traumatic brain injury disrupt the ...
In this paper we present a novel label fusion algorithm suited for scenarios in which different manu...
AbstractIn this paper we present a novel label fusion algorithm suited for scenarios in which differ...
Multi-atlas segmentation is an effective approach for automatically labeling objects of interest in ...
We propose a nonparametric, probabilistic model for the automatic segmentation of medical images, gi...
Automated labeling of anatomical structures in medical images is very important in many neuroscience...
Label fusion based multi-atlas segmentation has proven to be one of the most competitive techniques ...
Labeling or segmentation of structures of interest in medical imaging plays an essential role in bot...
The aim of this paper is to develop a probabilistic modeling framework for the segmentation of struc...
The automatic segmentation of interest structures is devoted to the morphological analysis of brain ...
In a multi-atlas based segmentation procedure, propagated atlas segmentations must be combined in a ...
In multi-atlas based segmentation, a target image is segmented by registering multiple atlas images ...
In brain structural segmentation, multi-atlas strategies are increasingly being used over single-atl...
Recently, multi-atlas patch-based label fusion has received an increasing interest in the medical im...
Recently, multi-atlas patch-based label fusion has achieved many successes in medical imaging area. ...
International audienceWhite matter pathologies such as tumors or traumatic brain injury disrupt the ...