G. James Blaine scite author profile

X-ray computed tomography (CT) images of patients bearing metal intracavitary applicators or other metal foreign objects exhibit severe artifacts including streaks and aliasing. We have systematically evaluated via computer simulations the impact of scattered radiation, the polyenergetic spectrum, and measurement noise on the performance of three reconstruction algorithms: conventional filtered backprojection (FBP), deterministic iterative deblurring, and a new iterative algorithm, alternating minimization (AM), based on a CT detector model that includes noise, scatter, and polyenergetic spectra. Contrary to the dominant view of the literature, FBP streaking artifacts are due mostly to mismatches between FBP's simplified model of CT detector response and the physical process of signal acquisition. Artifacts on AM images are significantly mitigated as this algorithm substantially reduces detector-model mismatches. However, metal artifacts are reduced to acceptable levels only when prior knowledge of the metal object in the patient, including its pose, shape, and attenuation map, are used to constrain AM's iterations. AM image reconstruction, in combination with object-constrained CT to estimate the pose of metal objects in the patient, is a promising approach for effectively mitigating metal artifacts and making quantitative estimation of tissue attenuation coefficients a clinical possibility.

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<title>Workstation acquisition node for multicenter imaging studies</title>

Moore

Maffitt

Blaine

et al. 2001

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Performance characteristics and image fidelity of gray-scale monitors.

Dwyer¹,

Stewart

Sayre

et al. 1992

RadioGraphics

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<title>Study Of A Distributed Picture Archiving And Communication System For Radiology</title>

Cox¹,

Blaine²,

Hill³

et al. 1982

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A preliminary design study has been carried out for a distributed picture archiving and communication system for the Mallinckrodt Institute of Radiology. The study develops design equations for three layers of a picture network and examines the estimated flow of digital images between a multiplicity of picture sources, picture archives and picture viewing stations. Application of these data to the design equations lead to some preliminary conclusions. One network architecture consistent with these conclusions is discussed.

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Considerations in moving electronic radiography into routine use

Cox

Muka

Blaine

et al. 1992

IEEE J. Select. Areas Commun.

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G. James Blaine

Prospects for quantitative computed tomography imaging in the presence of foreign metal bodies using statistical image reconstruction

<title>Workstation acquisition node for multicenter imaging studies</title>

Performance characteristics and image fidelity of gray-scale monitors.

<title>Study Of A Distributed Picture Archiving And Communication System For Radiology</title>

Considerations in moving electronic radiography into routine use

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