Background Radiomic features extracted from breast MRI have potential for diagnostic, prognostic, and predictive purposes. However, before they can be used as biomarkers in clinical decision support systems, features need to be repeatable and reproducible. Objective Identify repeatable radiomics features within breast tissue on prospectively collected MRI exams through multiple test-retest measurements. Study Type Prospective. Population 11 healthy female volunteers. Field Strength/Sequence 1.5 T; MRI exams, comprising T2-weighted turbo spin-echo (T2W) sequence, native T1-weighted turbo gradient-echo (T1W) sequence, diffusion-weighted imaging (DWI) sequence using b-values 0/150/800, and corresponding derived ADC maps. Assessment 18 MRI exam...
Radiomics is an emerging field using the extraction of quantitative features from medical images for...
Radiomics is an emerging field using the extraction of quantitative features from medical images for...
International audienceObject: Quantitative analysis in MRI is challenging due to variabilities in in...
Background Radiomic features extracted from breast MRI have potential for diagnostic, prognostic, an...
Purpose: An ever-growing number of predictive models used to inform clinical decision making have in...
OBJECTIVE Before implementing radiomics in routine clinical practice, comprehensive knowledge abo...
Purpose: The aims of this study are to evaluate the stability of radiomic features from T2-weighted ...
AbstractPURPOSE: To evaluate the variability and repeatability of repeated magnetic resonance imagin...
Purpose: To assess the repeatability of radiomic features in magnetic resonance (MR) imaging of glio...
Purpose: To assess the repeatability of radiomic features in magnetic resonance (MR) imaging of glio...
Purpose: Although quantitative image biomarkers (radiomics) show promising value for cancer diagnosi...
Purpose To investigate relationships between computer-extracted breast magnetic resonance (MR) imagi...
Purpose: Radiomics of magnetic resonance images (MRIs) in rectal cancer can non-invasively character...
Radiomics is an emerging field using the extraction of quantitative features from medical images for...
Radiomics is an emerging field using the extraction of quantitative features from medical images for...
International audienceObject: Quantitative analysis in MRI is challenging due to variabilities in in...
Background Radiomic features extracted from breast MRI have potential for diagnostic, prognostic, an...
Purpose: An ever-growing number of predictive models used to inform clinical decision making have in...
OBJECTIVE Before implementing radiomics in routine clinical practice, comprehensive knowledge abo...
Purpose: The aims of this study are to evaluate the stability of radiomic features from T2-weighted ...
AbstractPURPOSE: To evaluate the variability and repeatability of repeated magnetic resonance imagin...
Purpose: To assess the repeatability of radiomic features in magnetic resonance (MR) imaging of glio...
Purpose: To assess the repeatability of radiomic features in magnetic resonance (MR) imaging of glio...
Purpose: Although quantitative image biomarkers (radiomics) show promising value for cancer diagnosi...
Purpose To investigate relationships between computer-extracted breast magnetic resonance (MR) imagi...
Purpose: Radiomics of magnetic resonance images (MRIs) in rectal cancer can non-invasively character...
Radiomics is an emerging field using the extraction of quantitative features from medical images for...
Radiomics is an emerging field using the extraction of quantitative features from medical images for...
International audienceObject: Quantitative analysis in MRI is challenging due to variabilities in in...