2015
DOI: 10.1120/jacmp.v16i2.4949
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Evaluation of 4D CT acquisition methods designed to reduce artifacts

Abstract: Four-dimensional computed tomography (4D CT) is used to account for respiratory motion in radiation treatment planning, but artifacts resulting from the acquisition and postprocessing limit its accuracy. We investigated the efficacy of three experimental 4D CT acquisition methods to reduce artifacts in a prospective institutional review board approved study. Eighteen thoracic patients scheduled to undergo radiation therapy received standard clinical 4D CT scans followed by each of the alternative 4D CT acquisi… Show more

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Cited by 30 publications
(31 citation statements)
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“…Their approach is, however, limited to the specific challenges of 4D CBCT and especially the presence of streaking artifacts due to projection undersampling; the respective objective function to be minimized can therefore not directly be transferred to standard 4D CT reconstruction and artifacts. Similar thoughts and promising results can, nevertheless, also be found in the context of ciné 4D CT image sorting [20]; the respective work forms the basis of our implementation. Thus, with the design of the two steps of our approach for reduction of breathing irregularity-related 4D CT motion artifacts being motivated by recent developments in the context of 4D CT imaging, we present a novel combination thereof and describe their adaptation to low-pitch spiral 4D CT.…”
Section: Introductionmentioning
confidence: 53%
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“…Their approach is, however, limited to the specific challenges of 4D CBCT and especially the presence of streaking artifacts due to projection undersampling; the respective objective function to be minimized can therefore not directly be transferred to standard 4D CT reconstruction and artifacts. Similar thoughts and promising results can, nevertheless, also be found in the context of ciné 4D CT image sorting [20]; the respective work forms the basis of our implementation. Thus, with the design of the two steps of our approach for reduction of breathing irregularity-related 4D CT motion artifacts being motivated by recent developments in the context of 4D CT imaging, we present a novel combination thereof and describe their adaptation to low-pitch spiral 4D CT.…”
Section: Introductionmentioning
confidence: 53%
“…From a methodical perspective, the present study in parts builds on respective work in the field of ciné 4D CT [20], but represents the first attempt to transfer and adapt related concepts to low-pitch spiral 4D CT – and further contains the first comprehensive evaluation thereof.…”
Section: Discussionmentioning
confidence: 99%
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“…To the other group belongs the slow CT scan (4 s per slice in axial mode), prospective gated CT scan (images at only 1 phase with longer acquisition times that are 4 to 5 times longer than conventional scans), and 4D CT scan (three-dimensional [3D] scans at multiple phases), all of which require some kind of modification to the scanner's hardware or its software or both. [9] In one of these methods, called retrospective 4D gated CT, at every position of interest along the patient's long axis, multiple images are obtained spanning the entire breathing cycle. Each image is tagged with the phase information of the breathing cycle it belongs to.…”
Section: Rationale Of Four-dimensional Treatment Strategiesmentioning
confidence: 99%
“…The most common technique for managing temporal tumor variation is four‐dimensional imaging, including respiration‐correlated 4‐Dimensional CT (4DCT) scanning, however, this can result in motion artifacts . Artifacts can be caused by irregular breathing traces, for example, coughing or patient motion during the scanning process …”
Section: Introductionmentioning
confidence: 99%