In this paper, we present the segmentation of the head and neck lymph node regions using a new active contour based atlas registration model. We propose to segment the lymph node regions without directly including them in the atlas registration process; instead, they are segmented using the dense deformation field computed from the registration of the atlas structures with distinct boundaries. This approach results in robust and accurate segmentation of the lymph node regions even in the presence of significant anatomical variations between the atlas-image and the patient's image to be segmented. We also present a quantitative evaluation of lymph node regions segmentation using various statistical as well as geometrical metrics: sensitivity...
The assessment of lymph node is commonly used as a yardstick in diagnosis, staging, treatment and th...
The dramatic increase of magnetic resonance imaging (MRI) in daily treatment planning and response a...
Delineation of structures to irradiate (the tumors) as well as structures to be spared (e.g., optic ...
In this paper, we present the segmentation of the headand neck lymph node regions using a new active...
This paper presents automated segmentation of structuresin the Head and Neck (H\&N) region, usin...
Background: Semi-automated segmentation using deformable registration of selected atlas cases consis...
Thesis (Ph. D.)--University of Washington, 2007.The success of radiation therapy depends critically ...
PURPOSE: Radiotherapy planning requires accurate delineations of the tumor and of the critical struc...
The most reliable independet prognostic factor for the disease evolution of head&neck cancer patient...
The main objective of this thesis is to provide radio-oncology specialists with automatic tools for ...
Treatment planning for high precision radiotherapy of head and neck (H&N) cancer patients requir...
Abstract. Radiotherapy planning requires accurate delineations of the critical structures. To avoid ...
In this paper we present a methodology to form an anatomical atlas based on the analysis of dense de...
Atlas-based automatic segmentation is used in radiotherapy planning to accelerate the delineation of...
PurposeTo investigate the performance of 4 atlas-based (multi-ABAS) and 2 deep learning (DL) solutio...
The assessment of lymph node is commonly used as a yardstick in diagnosis, staging, treatment and th...
The dramatic increase of magnetic resonance imaging (MRI) in daily treatment planning and response a...
Delineation of structures to irradiate (the tumors) as well as structures to be spared (e.g., optic ...
In this paper, we present the segmentation of the headand neck lymph node regions using a new active...
This paper presents automated segmentation of structuresin the Head and Neck (H\&N) region, usin...
Background: Semi-automated segmentation using deformable registration of selected atlas cases consis...
Thesis (Ph. D.)--University of Washington, 2007.The success of radiation therapy depends critically ...
PURPOSE: Radiotherapy planning requires accurate delineations of the tumor and of the critical struc...
The most reliable independet prognostic factor for the disease evolution of head&neck cancer patient...
The main objective of this thesis is to provide radio-oncology specialists with automatic tools for ...
Treatment planning for high precision radiotherapy of head and neck (H&N) cancer patients requir...
Abstract. Radiotherapy planning requires accurate delineations of the critical structures. To avoid ...
In this paper we present a methodology to form an anatomical atlas based on the analysis of dense de...
Atlas-based automatic segmentation is used in radiotherapy planning to accelerate the delineation of...
PurposeTo investigate the performance of 4 atlas-based (multi-ABAS) and 2 deep learning (DL) solutio...
The assessment of lymph node is commonly used as a yardstick in diagnosis, staging, treatment and th...
The dramatic increase of magnetic resonance imaging (MRI) in daily treatment planning and response a...
Delineation of structures to irradiate (the tumors) as well as structures to be spared (e.g., optic ...