Add to ORKGTo evaluate our system for elastically deforming a three-dimensional atlas to match anatomical brain images, six deformed versions of an atlas were generated. The deformed atlases were created by elastically mapping an anatomical brain atlas onto different MRI brain image volumes. The mapping matches the edges of the ventricles and the surface of the brain; the resultant deformations are propagated through the atlas volume, deforming the remainder of the structures in the process. The atlas was then elastically matched to its deformed versions. The accuracy of the resultant matches was evaluated by determining the correspondence of 32 cortical and subcortical structures. The system on average matched the centroid of a structure to within 1 ...
Deformable registration methods are essential for multimodality imaging. Many different methods exis...
3D registration of brain MRI data is vital for many medical imaging applications. However, purely in...
International audienceThe deformable atlas paradigm has been at the core of computational anatomy du...
To evaluate our system for elastically deforming a three-dimensional atlas to match anatomical brain...
To characterize the complex morphological variations that occur naturally in human neuroanatomy so t...
Abstract. We present a hierarchical object{based deformable atlas, a promising new approach for the ...
Registering medical images of different individuals is difficult due to inherent anatomical variabil...
BackgroundTargeting in deep brain stimulation (DBS) relies heavily on the ability to accurately loca...
Abstract—We describe a computerized method to automatically find and label the cortical surface in t...
Anatomical standardization (also called spatial normalization) is a key process in cross-sectional ...
Abstract 1 We introduce a system that automatically segments and classifies structures in brain MRI ...
In this paper, we evaluate different schemes for constructing a mean shape anatomical atlas for atla...
In this paper, we show how the concept of statistical deformation models (SDMs) can be used for the ...
Abstract. This paper builds upon our previous work on elastic registra-tion, using surface-to-surfac...
Motivated by the need to locate and identify objects in three dimensional CT images, an optimal regi...
Deformable registration methods are essential for multimodality imaging. Many different methods exis...
3D registration of brain MRI data is vital for many medical imaging applications. However, purely in...
International audienceThe deformable atlas paradigm has been at the core of computational anatomy du...
To evaluate our system for elastically deforming a three-dimensional atlas to match anatomical brain...
To characterize the complex morphological variations that occur naturally in human neuroanatomy so t...
Abstract. We present a hierarchical object{based deformable atlas, a promising new approach for the ...
Registering medical images of different individuals is difficult due to inherent anatomical variabil...
BackgroundTargeting in deep brain stimulation (DBS) relies heavily on the ability to accurately loca...
Abstract—We describe a computerized method to automatically find and label the cortical surface in t...
Anatomical standardization (also called spatial normalization) is a key process in cross-sectional ...
Abstract 1 We introduce a system that automatically segments and classifies structures in brain MRI ...
In this paper, we evaluate different schemes for constructing a mean shape anatomical atlas for atla...
In this paper, we show how the concept of statistical deformation models (SDMs) can be used for the ...
Abstract. This paper builds upon our previous work on elastic registra-tion, using surface-to-surfac...
Motivated by the need to locate and identify objects in three dimensional CT images, an optimal regi...
Deformable registration methods are essential for multimodality imaging. Many different methods exis...
3D registration of brain MRI data is vital for many medical imaging applications. However, purely in...
International audienceThe deformable atlas paradigm has been at the core of computational anatomy du...