Enhancement of Region of Interest CT Reconstructions through Multimodal Data

David, Schote; Tim, Pfeiffer; Georg, Rose

doi:10.1515/cdbme-2018-0080

by Schote David, Pfeiffer Tim, Rose Georg

Abstract:

Computed tomography (CT) scans are frequently used intraoperatively, for example to control the positioning of implants during intervention. Often, to provide the required information, a full field of view is unnecessary. I nstead, the region-of-interest (ROI) imaging can be performed, allowing for substantial reduction in the applied X-ray dose. However, ROI imaging leads to data inconsistencies, caused by the truncation of the projections. This lack of information severely impairs the quality of the reconstructed images. This study presents a proof-of-concept for a new approach that combines the incomplete CT data with ultrasound data and time of flight measurements in order to restore some of the lacking information. The routine is evaluated in a simulation study using the original Shepp-Logan phantom in ROI cases with different degrees of truncation. Image quality is assessed by means of normalized root mean square error. The proposed method significantly reduces truncation artifacts in the reconstructions and achieves considerable radiation exposure reductions.

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Reference:

Enhancement of Region of Interest CT Reconstructions through Multimodal Data (Schote David, Pfeiffer Tim, Rose Georg), In Current Directions in Biomedical Engineering, volume 4, 2018.

Bibtex Entry:

@article{schote_david_enhancement_2018,
	title = {Enhancement of {Region} of {Interest} {CT} {Reconstructions} through {Multimodal} {Data}},
	volume = {4},
	issn = {23645504},
	url = {https://www.degruyter.com/view/j/cdbme.2018.4.issue-1/cdbme-2018-0080/cdbme-2018-0080.xml},
	doi = {10.1515/cdbme-2018-0080},
	abstract = {Computed tomography (CT) scans are frequently used intraoperatively, for example to control the positioning of implants during intervention. Often, to provide the required information, a full field of view is unnecessary. I nstead, the region-of-interest (ROI) imaging can be performed, allowing for substantial reduction in the applied X-ray dose. However, ROI imaging leads to data inconsistencies, caused by the truncation of the projections. This lack of information severely impairs the quality of the reconstructed images. This study presents a proof-of-concept for a new approach that combines the incomplete CT data with ultrasound data and time of flight measurements in order to restore some of the lacking information. The routine is evaluated in a simulation study using the original Shepp-Logan phantom in ROI cases with different degrees of truncation. Image quality is assessed by means of normalized root mean square error. The proposed method significantly reduces truncation artifacts in the reconstructions and achieves considerable radiation exposure reductions.},
	number = {1},
	urldate = {2019-02-04},
	journal = {Current Directions in Biomedical Engineering},
	author = {{Schote David} and {Pfeiffer Tim} and {Rose Georg}},
	year = {2018},
	pages = {331}
}