Add to ORKGRadiomic features are potential imaging biomarkers for therapy response assessment in oncology. However, the robustness of features with respect to imaging parameters is not well established. Previously identified potential imaging biomarkers were found to be intrinsically dependent on voxel size and number of gray levels (GLs) in a recent texture phantom investigation. Here, we validate the voxel size and GL in-phantom normalizations in lung tumors. Eighteen patients with non-small cell lung cancer of varying tumor volumes were analyzed. To compare with patient data, phantom scans were acquired on eight different scanners. Twenty four previously identified features were extracted from lung tumors. The Spearman rank (rs) and interclass corr...
AbstractRadiomics is being explored for potential applications in radiation therapy. How various ima...
Radiomics is emerging as a promising tool to extract quantitative biomarkers—called radiomic feature...
Consistency and duplicability in Computed Tomography (CT) output is essential to quantitative imagin...
Radiomic features are potential imaging biomarkers for therapy response assessment in oncology. Howe...
Radiomics treats images as quantitative data and promises to improve cancer prediction in radiology ...
AbstractWe study the reproducibility of quantitative imaging features that are used to describe tumo...
Purpose: Many radiomics features were originally developed for non-medical imaging applications and ...
Computer-assisted analysis of three-dimensional imaging data (radiomics) has received a lot of resea...
© 2019 The Author(s).Background: Radiomics suffers from feature reproducibility. We studied the vari...
Since the adaptation of medical imaging as a standard clinical diagnostic tool, an ever-growing numb...
Computer-assisted analysis of three-dimensional imaging data (radiomics) has received a lot of resea...
Medical imaging has been an essential component in clinical cancer care. Computer Tomography (CT) is...
We propose a novel framework for determining radiomics feature robustness by considering the effects...
Radiomic features are quantitative metrics calculated over regions of interest on medical images. Tu...
Background Radiomics refers to the extraction of a large number of image biomarker describing the tu...
AbstractRadiomics is being explored for potential applications in radiation therapy. How various ima...
Radiomics is emerging as a promising tool to extract quantitative biomarkers—called radiomic feature...
Consistency and duplicability in Computed Tomography (CT) output is essential to quantitative imagin...
Radiomic features are potential imaging biomarkers for therapy response assessment in oncology. Howe...
Radiomics treats images as quantitative data and promises to improve cancer prediction in radiology ...
AbstractWe study the reproducibility of quantitative imaging features that are used to describe tumo...
Purpose: Many radiomics features were originally developed for non-medical imaging applications and ...
Computer-assisted analysis of three-dimensional imaging data (radiomics) has received a lot of resea...
© 2019 The Author(s).Background: Radiomics suffers from feature reproducibility. We studied the vari...
Since the adaptation of medical imaging as a standard clinical diagnostic tool, an ever-growing numb...
Computer-assisted analysis of three-dimensional imaging data (radiomics) has received a lot of resea...
Medical imaging has been an essential component in clinical cancer care. Computer Tomography (CT) is...
We propose a novel framework for determining radiomics feature robustness by considering the effects...
Radiomic features are quantitative metrics calculated over regions of interest on medical images. Tu...
Background Radiomics refers to the extraction of a large number of image biomarker describing the tu...
AbstractRadiomics is being explored for potential applications in radiation therapy. How various ima...
Radiomics is emerging as a promising tool to extract quantitative biomarkers—called radiomic feature...
Consistency and duplicability in Computed Tomography (CT) output is essential to quantitative imagin...