Spatial Distribution of Noise Reduction in Four Iterative Reconstruction Algorithms in CT—A Technical Evaluation

Iterative reconstruction (IR) is a computed tomgraphy (CT) reconstruction algorithm aiming at improving image quality by reducing noise in the image. During this process, IR also changes the noise properties in the images. To assess how IR algorithms from four vendors affect the noise properties in...

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Bibliographic Details
Published in:Diagnostics (Basel) 2020-08, Vol.10 (9), p.647
Main Authors: Guleng, Anette, Bolstad, Kirsten, Dalehaug, Ingvild, Flatabø, Silje, Aadnevik, Daniel, Pettersen, Helge E. S.
Format: Article
Language:English
Subjects:
anthropomorphic phantom
computed tomography
image analysis
inter-image standard deviation
iterative reconstruction
noise
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Summary:Iterative reconstruction (IR) is a computed tomgraphy (CT) reconstruction algorithm aiming at improving image quality by reducing noise in the image. During this process, IR also changes the noise properties in the images. To assess how IR algorithms from four vendors affect the noise properties in CT images, an anthropomorphic phantom was scanned and images reconstructed with filtered back projection (FBP), and a medium and high level of IR. Each image acquisition was performed 30 times at the same slice position, to create noise maps showing the inter-image pixel standard deviation through the 30 images. We observed that IR changed the noise properties in the CT images by reducing noise more in homogeneous areas than at anatomical edges between structures of different densities. This difference increased with increasing IR level, and with increasing difference in density between two adjacent structures. Each vendor’s IR algorithm showed slightly different noise reduction properties in how much noise was reduced at different positions in the phantom. Users need to be aware of these differences when working with optimization of protocols using IR across scanners from different vendors.
ISSN:2075-4418
2075-4418
DOI:10.3390/diagnostics10090647