Clinical Applications of Dual-Energy CT

被引:68
作者
Hamid, Saira [1 ]
Nasir, Muhammad Umer [2 ]
So, Aaron [3 ]
Andrews, Gordon [1 ]
Nicolaou, Savvas [2 ]
Qamar, Sadia Raheez [4 ]
机构
[1] Univ British Columbia, Univ British Columbia Hosp, Dept Radiol, Koerner Pavilion,2211 Wesbrook Mall UBC Hosp, Vancouver, BC V6T 2B5, Canada
[2] Univ British Columbia, Vancouver Gen Hosp, Dept Med Imaging, Vancouver, BC, Canada
[3] Western Univ London, Schulich Sch Med & Dent, Dept Med Biophy, London, ON, Canada
[4] Univ Toronto, Sunnybrook Hosp, Dept Med Imaging, Toronto, ON, Canada
来源
KOREAN JOURNAL OF RADIOLOGY | 2021年 / 22卷 / 06期
关键词
DECT; Metal artifacts; COVID-19; Acute hemorrhage; COMPUTED-TOMOGRAPHY ANGIOGRAPHY; KILOELECTRON-VOLT-SETTINGS; VIRTUAL MONOENERGETIC IMAGES; HYPERVASCULAR LIVER-TUMORS; SPECTRAL DETECTOR CT; ARTIFACT-REDUCTION; DIAGNOSTIC-ACCURACY; PULMONARY-EMBOLISM; MULTIDETECTOR CT; QUALITY;
D O I
10.3348/kjr.2020.0996
中图分类号
R8 [特种医学]; R445 [影像诊断学];
学科分类号
1002 ; 100207 ; 1009 ;
摘要
Dual-energy CT (DECT) provides insights into the material properties of tissues and can differentiate between tissues with similar attenuation on conventional single-energy imaging. In the conventional CT scanner, differences in the X-ray attenuation between adjacent structures are dependent on the atomic number of the materials involved, whereas in DECT, the difference in the attenuation is dependent on both the atomic number and electron density. The basic principle of DECT is to obtain two datasets with different X-ray energy levels from the same anatomic region and material decomposition based on attenuation differences at different energy levels. In this article, we discuss the clinical applications of DECT and its potential robust improvements in performance and postprocessing capabilities.
引用
收藏
页码:970 / 982
页数:13
相关论文
共 68 条
[41]   Dual-Energy CT in Evaluation of the Acute Abdomen [J].
Murray, Nicolas ;
Darras, Kathryn E. ;
Walstra, Frances E. ;
Mohammed, Mohammed F. ;
McLaughlin, Patrick D. ;
Nicolaou, Savvas .
RADIOGRAPHICS, 2019, 39 (01) :264-286
[42]   Improvement of Image Quality in Unenhanced Dual-Layer CT of the Head Using Virtual Monoenergetic Images Compared With Polyenergetic Single-Energy CT [J].
Neuhaus, Victor ;
Abdullayev, Nuran ;
Hokamp, Nils Grosse ;
Pahn, Gregor ;
Kabbasch, Christoph ;
Mpotsaris, Anastasios ;
Maintz, David ;
Borggrefe, Jan .
INVESTIGATIVE RADIOLOGY, 2017, 52 (08) :470-476
[43]   Single-source dual-energy spectral multidetector CT of pancreatic adenocarcinoma: Optimization of energy level viewing significantly increases lesion contrast [J].
Patel, B. N. ;
Thomas, J. V. ;
Lockhart, M. E. ;
Berland, L. L. ;
Morgan, D. E. .
CLINICAL RADIOLOGY, 2013, 68 (02) :148-154
[44]   Energy-Specific Optimization of Attenuation Thresholds for Low-Energy Virtual Monoenergetic Images in Renal Lesion Evaluation [J].
Patel, Bhavik N. ;
Farjat, Alfredo ;
Schabel, Christoph ;
Duvnjak, Petar ;
Mileto, Achille ;
Ramirez-Giraldo, Juan Carlos ;
Marin, Daniele .
AMERICAN JOURNAL OF ROENTGENOLOGY, 2018, 210 (05) :W205-W217
[45]   Virtual Monochromatic Reconstruction of Dual-Energy Unenhanced Head CT at 65-75 keV Maximizes Image Quality Compared with Conventional Polychromatic CT [J].
Pomerantz, Stuart R. ;
Kamalian, Shervin ;
Zhang, Da ;
Gupta, Rajiv ;
Rapalino, Otto ;
Sahani, Dushyant V. ;
Lev, Michael H. .
RADIOLOGY, 2013, 266 (01) :318-325
[46]   Lung Perfusion with Dual-energy Multidetector-row CT (MDCT): Feasibility for the Evaluation of Acute Pulmonary Embolism in 117 Consecutive Patients [J].
Pontana, Francois ;
Faivre, Jean-Baptiste ;
Remy-Jardin, Martine ;
Flohr, Thomas ;
Schmidt, Bernhard ;
Tacelli, Nunzia ;
Pansini, Vittorio ;
Remy, Jacques .
ACADEMIC RADIOLOGY, 2008, 15 (12) :1494-1504
[47]   Early Small-Bowel Ischemia: Dual-Energy CT Improves Conspicuity Compared with Conventional CT in a Swine Model [J].
Potretzke, Theodora A. ;
Brace, Christopher L. ;
Lubner, Meghan G. ;
Sampson, Lisa A. ;
Willey, Bridgett J. ;
Lee, Fred T., Jr. .
RADIOLOGY, 2015, 275 (01) :119-126
[48]   Carotid dual-energy CT angiography: Evaluation of low keV calculated monoenergetic datasets by means of a frequency-split approach for noise reduction at low keV levels [J].
Riffel, Philipp ;
Haubenreisser, Holger ;
Meyer, Mathias ;
Sudarski, Sonja ;
Morelli, John N. ;
Schmidt, Bernhard ;
Schoenberg, Stefan O. ;
Henzler, Thomas .
EUROPEAN JOURNAL OF RADIOLOGY, 2016, 85 (04) :720-725
[49]   Optimized energy of spectral CT for infarct imaging: Experimental validation with human validation [J].
Sandfort, Veit ;
Palanisamy, Srikanth ;
Symons, Rolf ;
Pourmorteza, Amir ;
Ahlman, Mark A. ;
Rice, Kelly ;
Thomas, Tom ;
Davies-Venn, Cynthia ;
Krauss, Bernhard ;
Kwan, Alan ;
Pandey, Ankur ;
Zimmerman, Stefan L. ;
Bluemke, David A. .
JOURNAL OF CARDIOVASCULAR COMPUTED TOMOGRAPHY, 2017, 11 (03) :171-178
[50]   Assessment of the Hepatic Veins in Poor Contrast Conditions using Dual Energy CT: Evaluation of a Novel Monoenergetic Extrapolation Software Algorithm [J].
Schabel, C. ;
Bongers, M. ;
Sedlmair, M. ;
Korn, A. ;
Grosse, U. ;
Mangold, S. ;
Claussen, C. D. ;
Thomas, C. .
ROFO-FORTSCHRITTE AUF DEM GEBIET DER RONTGENSTRAHLEN UND DER BILDGEBENDEN VERFAHREN, 2014, 186 (06) :591-597
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