PURPOSE: Radiotherapy planning requires accurate delineations of the tumor and of the critical structures. Atlas-based segmentation has been shown to be very efficient to automatically delineate brain critical structures. We therefore propose to construct an anatomical atlas of the head and neck region. METHODS AND MATERIALS: Due to the high anatomical variability of this region, an atlas built from a single image as for the brain is not adequate. We address this issue by building a symmetric atlas from a database of manually segmented images. First, we develop an atlas construction method and apply it to a database of 45 Computed Tomography (CT) images from patients with node-negative pharyngo-laryngeal squamous cell carcinoma manually del...
BACKGROUND AND PURPOSE: Accurate conformal radiotherapy treatment requires manual delineation of tar...
In this paper we present a methodology to build a computational anatomical atlas based on the analys...
The goal of this thesis is to provide automatic segmentation tools based on the use of anatomical at...
In this paper, we present the segmentation of the headand neck lymph node regions using a new active...
Abstract. Radiotherapy planning requires accurate delineations of the critical structures. To avoid ...
Background: Semi-automated segmentation using deformable registration of selected atlas cases consis...
In this paper we present a methodology to form an anatomical atlas based on the analysis of dense de...
In this paper, we present the segmentation of the head and neck lymph node regions using a new activ...
International audiencePURPOSE: Brain tumor radiotherapy requires the volume measurements and the loc...
International audienceRadiotherapy planning requires accurate delineations of the critical structure...
The main objective of this thesis is to provide radio-oncology specialists with automatic tools for ...
PurposeTo investigate the performance of 4 atlas-based (multi-ABAS) and 2 deep learning (DL) solutio...
Thesis (Ph. D.)--University of Washington, 2007.The success of radiation therapy depends critically ...
Atlas-based automatic segmentation is used in radiotherapy planning to accelerate the delineation of...
Treatment planning for high precision radiotherapy of head and neck (H&N) cancer patients requir...
BACKGROUND AND PURPOSE: Accurate conformal radiotherapy treatment requires manual delineation of tar...
In this paper we present a methodology to build a computational anatomical atlas based on the analys...
The goal of this thesis is to provide automatic segmentation tools based on the use of anatomical at...
In this paper, we present the segmentation of the headand neck lymph node regions using a new active...
Abstract. Radiotherapy planning requires accurate delineations of the critical structures. To avoid ...
Background: Semi-automated segmentation using deformable registration of selected atlas cases consis...
In this paper we present a methodology to form an anatomical atlas based on the analysis of dense de...
In this paper, we present the segmentation of the head and neck lymph node regions using a new activ...
International audiencePURPOSE: Brain tumor radiotherapy requires the volume measurements and the loc...
International audienceRadiotherapy planning requires accurate delineations of the critical structure...
The main objective of this thesis is to provide radio-oncology specialists with automatic tools for ...
PurposeTo investigate the performance of 4 atlas-based (multi-ABAS) and 2 deep learning (DL) solutio...
Thesis (Ph. D.)--University of Washington, 2007.The success of radiation therapy depends critically ...
Atlas-based automatic segmentation is used in radiotherapy planning to accelerate the delineation of...
Treatment planning for high precision radiotherapy of head and neck (H&N) cancer patients requir...
BACKGROUND AND PURPOSE: Accurate conformal radiotherapy treatment requires manual delineation of tar...
In this paper we present a methodology to build a computational anatomical atlas based on the analys...
The goal of this thesis is to provide automatic segmentation tools based on the use of anatomical at...