Peter M Edic
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Explore the profile of Peter M Edic including associated specialties, affiliations and a list of published articles.
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13
Citations
138
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Recent Articles
1.
Yin Z, Yao Y, Montillo A, Edic P, De Man B
Conf Proc Int Conf Image Form Xray Comput Tomogr
. 2019 Dec;
2014:52-55.
PMID: 31788673
3D volumetric CT images hold the potential to become a rich source of information for 3D organ segmentation and far exceed that made available through 2D radiograph images. Acquiring and...
2.
Salehjahromi M, Wang Q, Zhang Y, Gjesteby L, Harrison D, Wang G, et al.
Med Phys
. 2019 Aug;
46(11):4803-4815.
PMID: 31408539
Purpose: In computed tomography (CT), miscalibrated or imperfect detector elements produce stripe artifacts in the sinogram. The stripe artifacts in Radon space are responsible for concentric ring artifacts in the...
3.
Lambert J, Sun Y, Stillson C, Li Z, Kumar R, Wang S, et al.
Radiology
. 2018 Jul;
289(1):103-110.
PMID: 29969071
Purpose To compare the CT imaging performance of a carboxybetaine zwitterionic-coated tantalum oxide (TaCZ) nanoparticle CT contrast agent with that of a conventional iodinated contrast agent in a swine model...
4.
FitzGerald P, Colborn R, Edic P, Lambert J, Bonitatibus Jr P, Yeh B
Med Phys
. 2017 Oct;
44(12):6251-6260.
PMID: 28986933
Purpose: To develop a simple method for producing liquid-tissue-surrogate (LTS) materials that accurately represent human soft tissues in terms of density and X-ray attenuation coefficient. Methods And Materials: We evaluated...
5.
Lambert J, FitzGerald P, Edic P, Sun Y, Bonitatibus Jr P, Colborn R, et al.
J Comput Assist Tomogr
. 2016 Nov;
41(3):505-510.
PMID: 27824676
Objectives: The aim of this study was to assess whether the low- to high-kVp computed tomography (CT) number ratio at dual-energy CT is affected by changes in patient diameter. Methods:...
6.
Yeh B, FitzGerald P, Edic P, Lambert J, Colborn R, Marino M, et al.
Adv Drug Deliv Rev
. 2016 Sep;
113:201-222.
PMID: 27620496
The introduction of spectral CT imaging in the form of fast clinical dual-energy CT enabled contrast material to be differentiated from other radiodense materials, improved lesion detection in contrast-enhanced scans,...
7.
Neculaes V, Caiafa A, Cao Y, De Man B, Edic P, Frutschy K, et al.
Med Phys
. 2016 Aug;
43(8):4617.
PMID: 27487878
Purpose: This paper summarizes the development of a high-power distributed x-ray source, or "multisource," designed for inverse-geometry computed tomography (CT) applications [see B. De Man et al., "Multisource inverse-geometry CT....
8.
FitzGerald P, Bennett J, Carr J, Edic P, Entrikin D, Gao H, et al.
J Xray Sci Technol
. 2016 Feb;
24(1):43-65.
PMID: 26890906
Background: We are interested in exploring dedicated, high-performance cardiac CT systems optimized to provide the best tradeoff between system cost, image quality, and radiation dose. Objective: We sought to identify...
9.
Lambert J, Edic P, FitzGerald P, Torres A, Yeh B
J Med Imaging (Bellingham)
. 2016 Feb;
2(3):033503.
PMID: 26839905
Metal artifacts have been a problem associated with computed tomography (CT) since its introduction. Recent techniques to mitigate this problem have included utilization of high-energy (keV) virtual monochromatic spectral (VMS)...
10.
FitzGerald P, Colborn R, Edic P, Lambert J, Torres A, Bonitatibus Jr P, et al.
Radiology
. 2015 Sep;
278(3):723-33.
PMID: 26356064
Purpose: To quantify the computed tomographic (CT) image contrast produced by potentially useful contrast material elements in clinically relevant imaging conditions. Materials And Methods: Equal mass concentrations (grams of active...