Purpose: The aim of this study is to establish the first step toward a novel and highly individualized three-dimensional (3D) dose distribution reconstruction method, based on CT scans and organ delineations of recently treated patients. Specifically, the feasibility of automatically selecting the CT scan of a recently treated childhood cancer patient who is similar to a given historically treated child who suffered from Wilms' tumor is assessed.Methods: A cohort of 37 recently treated children between 2- and 6-yr old are considered. Five potential notions of ground-truth similarity are proposed, each focusing on different anatomical aspects. These notions are automatically computed from CT scans of the abdomen and 3D organ delineations (li...
The advent of Machine Learning (ML) is proving extremely beneficial in many healthcare applications....
To study radiotherapy-related adverse effects, detailed dose information (3D distribution) is needed...
Purpose: Our purpose was to validate and compare the performance of 4 organ dose reconstruction appr...
htmlabstract<p>Purpose: The aim of this study is to establish the first step toward a novel and high...
The motivation of the research presented in this thesis was to provide solutions for accurate organ ...
Purpose Reconstructing 3D dose distributions for pre-1990 pediatric 2D radiotherapy plans is chall...
Purpose: The purpose of this work was to assess the feasibility of using surrogate CT scans of match...
Purpose: The purpose of this work was to assess the feasibility of using surrogate CT scans of match...
In retrospective radiation treatment (RT) dosimetry, a surrogate anatomy is often used for patients ...
Purpose: Current phantoms used for the dose reconstruction of long-term childhood cancer survivors l...
The advent of Machine Learning (ML) is proving extremely beneficial in many healthcare applications....
To study radiotherapy-related adverse effects, detailed dose information (3D distribution) is needed...
Purpose: Our purpose was to validate and compare the performance of 4 organ dose reconstruction appr...
htmlabstract<p>Purpose: The aim of this study is to establish the first step toward a novel and high...
The motivation of the research presented in this thesis was to provide solutions for accurate organ ...
Purpose Reconstructing 3D dose distributions for pre-1990 pediatric 2D radiotherapy plans is chall...
Purpose: The purpose of this work was to assess the feasibility of using surrogate CT scans of match...
Purpose: The purpose of this work was to assess the feasibility of using surrogate CT scans of match...
In retrospective radiation treatment (RT) dosimetry, a surrogate anatomy is often used for patients ...
Purpose: Current phantoms used for the dose reconstruction of long-term childhood cancer survivors l...
The advent of Machine Learning (ML) is proving extremely beneficial in many healthcare applications....
To study radiotherapy-related adverse effects, detailed dose information (3D distribution) is needed...
Purpose: Our purpose was to validate and compare the performance of 4 organ dose reconstruction appr...