Purpose: A radiomics features classifier was implemented to evaluate segmentation quality of heart structures. A robust feature set sensitive to incorrect contouring would provide an ideal quantitative index to drive autocontouring optimization. Methods: Twenty-five cardiac sub-structures were contoured as regions of interest in 36 CTs. Radiomic features were extracted from manually-contoured (MC) and Hierarchical-Clustering automatic-contouring (AC) structures. A robust feature-set was identified from correctly contoured CT datasets. Features variation was analyzed over a MC/AC dataset. A supervised-learning approach was used to train an Artificial-Intelligence (AI) classifier; incorrect contouring cases were generated from the gold-standa...
Artificial intelligence and radiomics have the potential to revolutionise cancer prognostication and...
Purpose: While radiation dose to cardiac substructures has been linked to increased cardiac toxiciti...
‘Radiomics’ is utilized to improve the prediction of patient overall survival and/or outcome. Target...
Purpose: A radiomics features classifier was implemented to evaluate segmentation quality of heart s...
Purpose: Segmentation of cardiac sub-structures for dosimetric analyses is usually performed manuall...
Organs-at-risk contouring is time consuming and labour intensive. Automation by deep learning algori...
Purpose: We evaluated the feasibility of using an automatic segmentation tool to delineate cardiac s...
Background and purpose: Quantifying radiation dose to cardiac substructures is important for researc...
Incidental radiation exposure to the heart during lung cancer radiotherapy is associated with radiat...
Due to advances in the acquisition and analysis of medical imaging, it is currently possible to quan...
Background and Purpose: The heart is a complex anatomical organ and contouring the cardiac substruct...
Radiotherapy is a safe and effective treatment for many patients with cancer. However, incidental ra...
BACKGROUND AND PURPOSE: The heart is a complex anatomical organ and contouring the cardiac substruct...
Background and purpose We developed an automatic method to segment cardiac substructures given a ra...
Due to advances in the acquisition and analysis of medical imaging, it is currently possible to quan...
Artificial intelligence and radiomics have the potential to revolutionise cancer prognostication and...
Purpose: While radiation dose to cardiac substructures has been linked to increased cardiac toxiciti...
‘Radiomics’ is utilized to improve the prediction of patient overall survival and/or outcome. Target...
Purpose: A radiomics features classifier was implemented to evaluate segmentation quality of heart s...
Purpose: Segmentation of cardiac sub-structures for dosimetric analyses is usually performed manuall...
Organs-at-risk contouring is time consuming and labour intensive. Automation by deep learning algori...
Purpose: We evaluated the feasibility of using an automatic segmentation tool to delineate cardiac s...
Background and purpose: Quantifying radiation dose to cardiac substructures is important for researc...
Incidental radiation exposure to the heart during lung cancer radiotherapy is associated with radiat...
Due to advances in the acquisition and analysis of medical imaging, it is currently possible to quan...
Background and Purpose: The heart is a complex anatomical organ and contouring the cardiac substruct...
Radiotherapy is a safe and effective treatment for many patients with cancer. However, incidental ra...
BACKGROUND AND PURPOSE: The heart is a complex anatomical organ and contouring the cardiac substruct...
Background and purpose We developed an automatic method to segment cardiac substructures given a ra...
Due to advances in the acquisition and analysis of medical imaging, it is currently possible to quan...
Artificial intelligence and radiomics have the potential to revolutionise cancer prognostication and...
Purpose: While radiation dose to cardiac substructures has been linked to increased cardiac toxiciti...
‘Radiomics’ is utilized to improve the prediction of patient overall survival and/or outcome. Target...