Evaluation of imaging performance across dual-energy CT (DECT) platforms, including dual-layer CT (DLCT), rapid-kVp-switching CT (KVSCT) and dual-source CT (DSCT). A semi-anthropomorphic abdomen phantom was imaged on these DECT systems. Scans were repeated three times for CTDIvol levels of 10 mGy, 20 mGy, 30 mGy and different fat-simulating extension rings. Over the available range of virtual-monoenergetic images (VMI), noise as well as quantitative accuracy of hounsfield units (HU) and iodine concentrations were evaluated. For all VMI levels, HU values could be determined with high accuracy compared to theoretical values. For KVSCT and DSCT, a noise increase was observed towards lower VMI levels. A patient-size dependent increase in the un...
Purpose. The aim of this work was to compare the quality and noise of true nonenhanced (TNE) and vir...
Objectives To investigate the robustness of radiomic features between three dual-energy CT (DECT) sy...
OBJECTIVES To assess the impact of scan- and patient-related factors on the error and the minimum d...
International audienceTo compare the spectral performance of dual-energy CT (DECT) platforms using t...
Objectives: To investigate inter-scan and inter-scanner variation of iodine concentration (IC) and a...
OBJECTIVE: To determine the accuracy of iodine quantification with dual energy computed tomography (...
Abstract Background The aim of this study was to quantitatively benchmark iodine imaging across spec...
Background Dual-energy computed tomography (DECT) has conceptually been known since the late 1970s a...
To assess the accuracy of dual-energy CT (DECT) for the quantification of iodine concentrations in a...
Background: A new tube voltage-switching dual-energy (DE) CT system using a novel deep-learning base...
OBJECTIVE. The purpose of this study is to investigate the magnitude of differences between attenuat...
Dual-energy CT (DECT) is a tremendous innovation in CT technology that allows creation of numerous i...
To assess the accuracy of dual-energy CT (DECT) for the quantification of iodine concentrations in a...
OBJECTIVES: To compare single-energy (SECT) and dual-energy (DECT) abdominal CT examinations in mat...
Purpose: To assess the influence of different dual-energy CT (DECT) scanner techniques on the severi...
Purpose. The aim of this work was to compare the quality and noise of true nonenhanced (TNE) and vir...
Objectives To investigate the robustness of radiomic features between three dual-energy CT (DECT) sy...
OBJECTIVES To assess the impact of scan- and patient-related factors on the error and the minimum d...
International audienceTo compare the spectral performance of dual-energy CT (DECT) platforms using t...
Objectives: To investigate inter-scan and inter-scanner variation of iodine concentration (IC) and a...
OBJECTIVE: To determine the accuracy of iodine quantification with dual energy computed tomography (...
Abstract Background The aim of this study was to quantitatively benchmark iodine imaging across spec...
Background Dual-energy computed tomography (DECT) has conceptually been known since the late 1970s a...
To assess the accuracy of dual-energy CT (DECT) for the quantification of iodine concentrations in a...
Background: A new tube voltage-switching dual-energy (DE) CT system using a novel deep-learning base...
OBJECTIVE. The purpose of this study is to investigate the magnitude of differences between attenuat...
Dual-energy CT (DECT) is a tremendous innovation in CT technology that allows creation of numerous i...
To assess the accuracy of dual-energy CT (DECT) for the quantification of iodine concentrations in a...
OBJECTIVES: To compare single-energy (SECT) and dual-energy (DECT) abdominal CT examinations in mat...
Purpose: To assess the influence of different dual-energy CT (DECT) scanner techniques on the severi...
Purpose. The aim of this work was to compare the quality and noise of true nonenhanced (TNE) and vir...
Objectives To investigate the robustness of radiomic features between three dual-energy CT (DECT) sy...
OBJECTIVES To assess the impact of scan- and patient-related factors on the error and the minimum d...