SU‐E‐J‐44: Dual Energy Subtraction Imaging to Improve Tumor Visibility at Oblique Angles

SU‐E‐J‐44: Dual Energy Subtraction Imaging to Improve Tumor Visibility at Oblique Angles

Purpose: To characterize the contrast improvement of simulated tumors in an anthropomorphic phantom using Dual Energy (DE) subtraction with a clinical on‐board imager (OBI) at oblique angles. Methods: An Alderson lung/chest anthropomorphic phantom with simulated tumors in the thoracic cavity was ima...

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Bibliographic Details
Published in:Medical Physics Vol. 39; no. 6; p. 3662
Main Authors: Hoggarth, M, Luce, J, Bray, T, Block, A, Roeske, J
Format: Conference Proceeding Journal Article
Language:English
Published: United States American Association of Physicists in Medicine 01-06-2012
Subjects:
Cancer
Cavitation
Heart
Lungs
Medical image contrast
Medical imaging
Tissue structure
Visibility
Heart
Medical imaging
Lungs
Tissue structure
Visibility
Cavitation
Medical image contrast
Cancer
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Summary:Purpose: To characterize the contrast improvement of simulated tumors in an anthropomorphic phantom using Dual Energy (DE) subtraction with a clinical on‐board imager (OBI) at oblique angles. Methods: An Alderson lung/chest anthropomorphic phantom with simulated tumors in the thoracic cavity was imaged using a sequential DE imaging methodology. High (120kVp) and low (60kVp) planar images were obtained in pairs every 100 in a full (3600) rotation using the OBI (Varian Medical Systems, Palo Alto, CA). Optimal mAs settings for DE component images were determined byvarying the x‐ray exposure time, while maintaining a constant tube current. DE images were created to best suppress the bone overlaying the simulated tumors. Tumor visibility in DE images was quantified using the Contrast‐to‐Noise Ratio (CNR). The ratio of the CNR from the DE image relative to a single image (standard protocol) was evaluated as a function of gantry angle.Results: CNR was improved with DE imaging by an average ratio of 1.66 over all gantry angles. The greatest improvement occurred at gantry angles where the tumor was obstructed by the ribs alone. More modest improvements were observed where the tumor overlapped other soft tissue structures (such as the heart) or the dense spine, on a given projection. Conclusions: This study illustrates the feasibility of performing DE imaging at oblique gantry angles using a clinical on‐board imaging system. Incorporating DE imaging into clinical practice may allow for verification of tumor position at oblique gantry angles, and may facilitate the development of markerless motion tracking techniques. Supported by a grant from Varian Medical Systems.
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ISSN:0094-2405
2473-4209
DOI:10.1118/1.4734879