The Evolution of Radiation Dose over Time: Measurement of a Patient Cohort undergoing Whole-Body Examinations on three Computer Tomography Generations

Abstract Objectives To evaluate and compare the radiation dose and image quality of whole-body-CT (WBCT) performed on the 3rd-generation dual-source-CT (DSCT) with 2nd-generation DSCT and 64-slices-Single-Source-CT (SSCT) in a large patient cohort. Material and Methods Using a monitoring and trackin...

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Published in:European journal of radiology 2017-01, Vol.86, p.63-69
Main Authors: Marcus, Roy P, Koerner, Elise, Aydin, Roland C, Zinsser, Dominik, Finke, Tobias, Cyron, Christian J, Bamberg, Fabian, Nikolaou, Konstantin, Notohamiprodjo, Mike
Format: Article
Language:English
Subjects:
Aorta, Thoracic - radiation effects
Computed tomography
CTDI
Dose saving technique
Dual-Source-CT
Female
Humans
Liver - radiation effects
Male
Middle Aged
Physical Examination
Radiation Dosage
Radiographic Image Interpretation, Computer-Assisted - methods
Radiology
Retrospective Studies
Signal-To-Noise Ratio
SSDE
Tomography, X-Ray Computed - methods
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Summary:Abstract Objectives To evaluate and compare the radiation dose and image quality of whole-body-CT (WBCT) performed on the 3rd-generation dual-source-CT (DSCT) with 2nd-generation DSCT and 64-slices-Single-Source-CT (SSCT) in a large patient cohort. Material and Methods Using a monitoring and tracking software 1451, 747 and 1861 patients scanned with a one-spiral-thorax-abdomen-pelvis-CT-examination on a 3rd-, 2nd-generation DSCT and SSCT, respectively, were extracted from the PACS server. For the intra-individual analysis, 203 patients on the 3rd-generation DSCT were identified. Out of those 203 patients, 155 had the same examination on the 2nd-generation DSCT, 91 patients had the same examination on the SSCT and 43 patients had an examination on all three CT-generations. Automatic tube current modulation was active on all three CT-generations, whereas automatic tube voltage selection was only available on both DSCT-generations. Dose was recorded by the size-specific-dose-estimate-method (SSDE); signal-to-noise-ratio (SNR) and contrast-to-noise-ratio (CNR) were calculated placing a ROI on the ascending aorta/liver and the subcutaneous adipose tissue at comparable level. Image quality of axillary and mediastinal lymph nodes and adrenal glands was assessed by two experienced radiologists. Results Subjective image quality was excellent throughout all three CT-generations (p = 0.38-0.98). Quantitative image quality in both DSCT generations was superior to SSCT (p < 0.001). SNR and CNR in the liver parenchyma was superior in the 3rd-generation DSCT compared to the 2nd generation DSCT (p < 0.001), whereas there was no difference in the aorta. In the inter-individual analysis, CTDIvol was lower by 26.9% and 44.3% in the 3rd-generation DSCT, when compared to the 2nd-generation DSCT and SSCT, respectively; SSDE was lower by 31.5% and 51% in the 3rd-generation DSCT, when compared to the 2nd-generation DSCT and SSCT, respectively. In the intra-individual comparison CTDIVol in the 3rd-generation DSCT was lower by 33% and 45%, when compared to the 2nd-gneration DSCT and the SSCT, respectively. Consequently, SSDE in the 3rd-generation DSCT was lower by 29% and by 43% when compared to the 2nd-generation DSCT and SSCT, respectively. Conclusion State-of-the-art CT-equipment substantially reduce radiation dose without affecting image quality.
ISSN:0720-048X
1872-7727
DOI:10.1016/j.ejrad.2016.11.002