To assess volumetric measurement variability in pulmonary nodules detected at low-dose chest CT with three reconstruction settings. The volume of 200 solid pulmonary nodules was measured three times using commercially available semi-automated software of low-dose chest CT data-sets reconstructed with 1 mm section thickness and a soft kernel (A), 2 mm and a soft kernel (B), and 2 mm and a sharp kernel (C), respectively. Repeatability coefficients of the three measurements within each setting were calculated by the Bland and Altman method. A three-level model was applied to test the impact of reconstruction setting on the measured volume. The repeatability coefficients were 8.9, 22.5 and 37.5% for settings A, B and C. Three-level analysis sho...
Consistency and duplicability in Computed Tomography (CT) output is essential to quantitative imagin...
We compared interexamination variability of CT lung nodule volumetry with six currently available se...
To assess in vivo volumetric repeatability of an automated software algorithm in pulmonary nodules d...
To assess volumetric measurement variability in pulmonary nodules detected at low-dose chest CT with...
textabstractObjective: To assess volumetric measurement variability in pulmonary nodules detected at...
To assess volumetric measurement variability in pulmonary nodules detected at low-dose chest CT with...
PurposeMeasuring the size of nodules on chest CT is important for lung cancer staging and measuring ...
Objective: To assess inter- and intrascanner variability in volumetry of solid pulmonary nodules in ...
Objective: To assess inter- and intrascanner variability in volumetry of solid pulmonary nodules in ...
Background and objective It has been proven that volumetric measurements could detect subtle changes...
OBJECTIVE. The objectives of our study were to evaluate the in vivo reproducibility of automated vol...
OBJECTIVE: To evaluate how changes in lung volume affect volumetric measurements of lung nodules usi...
PurposeTo investigate the effects of dose level and reconstruction method on density and texture bas...
Background and objective Software oriented three-dimensional (3D) volumetric measurement of pulmonar...
Background: To reduce the radiation exposure from chest computed tomography (CT), ultralow-dose CT (...
Consistency and duplicability in Computed Tomography (CT) output is essential to quantitative imagin...
We compared interexamination variability of CT lung nodule volumetry with six currently available se...
To assess in vivo volumetric repeatability of an automated software algorithm in pulmonary nodules d...
To assess volumetric measurement variability in pulmonary nodules detected at low-dose chest CT with...
textabstractObjective: To assess volumetric measurement variability in pulmonary nodules detected at...
To assess volumetric measurement variability in pulmonary nodules detected at low-dose chest CT with...
PurposeMeasuring the size of nodules on chest CT is important for lung cancer staging and measuring ...
Objective: To assess inter- and intrascanner variability in volumetry of solid pulmonary nodules in ...
Objective: To assess inter- and intrascanner variability in volumetry of solid pulmonary nodules in ...
Background and objective It has been proven that volumetric measurements could detect subtle changes...
OBJECTIVE. The objectives of our study were to evaluate the in vivo reproducibility of automated vol...
OBJECTIVE: To evaluate how changes in lung volume affect volumetric measurements of lung nodules usi...
PurposeTo investigate the effects of dose level and reconstruction method on density and texture bas...
Background and objective Software oriented three-dimensional (3D) volumetric measurement of pulmonar...
Background: To reduce the radiation exposure from chest computed tomography (CT), ultralow-dose CT (...
Consistency and duplicability in Computed Tomography (CT) output is essential to quantitative imagin...
We compared interexamination variability of CT lung nodule volumetry with six currently available se...
To assess in vivo volumetric repeatability of an automated software algorithm in pulmonary nodules d...