Paper Info
Title
Segmentation-aided adaptive filtering for metal artifact reduction in radio-therapeutic CT images
Abstract
In CT imaging, high absorbing objects such as metal bodies may cause significant artifacts, which may, for example, result in dose inaccuracies in the radiation therapy planning process. In this work, we aim at reducing the local and global image artifact, in order to improve the overall dose accuracy. The key part of this approach is the correction of the original projection data in those regions, which feature defects caused by rays traversing the high attenuating objects in the patient. The affected regions are substituted by model data derived from. the original tomogram deploying a segmentation method. Phantom and clinical studies demonstrate that the proposed method significantly reduces the overall artifacts while preserving the information content of the image as much as possible. The image quality improvements were quantified by determining the signal-to-noise ratio, the artifact level and the modulation transfer function. The proposed method is computationally efficient and can easily be integrated into commercial CT scanners and radiation therapy planning software.
Year
DOI
Venue
2004
10.1117/12.535346
Proceedings of SPIE
Keywords
Field
DocType
computed tomography (CT),metal artifacts,image segmentation,adaptive filtering,radiotherapy planning
Metal Artifact,Computer vision,Optical transfer function,Segmentation,Computer science,Imaging phantom,Signal-to-noise ratio,Image quality,Tomography,Adaptive filter,Artificial intelligence
Conference
Volume
ISSN
Citations 
5370
0277-786X
2
PageRank 
References 
Authors
0.70
0
5
Name
Order
Citations
PageRank
celine saint olive120.70
Michael R. Kaus21009.41
Vladimir Pekar326124.85
Eck Kai4527.57
lothar spies531.07