2023
DOI: 10.3390/tomography9010017
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Pros and Cons of Dual-Energy CT Systems: “One Does Not Fit All”

Abstract: Dual-energy computed tomography (DECT) uses different energy spectrum X-ray beams for differentiating materials with similar attenuation at a certain energy. Compared with single-energy CT, it provides images with better diagnostic performance and a potential reduction of contrast agent and radiation doses. There are different commercially available DECT technologies, with machines that may display two X-ray sources and two detectors, a single source capable of fast switching between two energy levels, a speci… Show more

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Cited by 41 publications
(39 citation statements)
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“…However, this scheme provides limited information on substance composition. For instance, a typical example is the discrimination between calcified plaques and iodine-containing blood in the human body, which is one of the challenges of conventional single-energy clinical computed tomography (CT). Although the atomic numbers of these materials differing widely (Z Ca = 20, Z I = 53), the grayscale of calcified plaques and iodinated blood in CT image may be identical at a certain energy, depending on the respective mass density or iodine concentration . This is because the CT number used to quantify the image grayscale of a substance is based on the linear attenuation coefficient of the objects being imaged, which is not unique for any given material, even in the case of different elemental compositions .…”
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“…However, this scheme provides limited information on substance composition. For instance, a typical example is the discrimination between calcified plaques and iodine-containing blood in the human body, which is one of the challenges of conventional single-energy clinical computed tomography (CT). Although the atomic numbers of these materials differing widely (Z Ca = 20, Z I = 53), the grayscale of calcified plaques and iodinated blood in CT image may be identical at a certain energy, depending on the respective mass density or iodine concentration . This is because the CT number used to quantify the image grayscale of a substance is based on the linear attenuation coefficient of the objects being imaged, which is not unique for any given material, even in the case of different elemental compositions .…”
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confidence: 99%
“…The emergence of dual-energy X-ray imaging provides a feasible strategy to evaluate the material-specific information at different X-ray energy bins . This technique is based on the modification of the X-ray source to generate two different polychromatic X-ray energy spectra, or spectral separation at the detector level. , The current commercial solutions for dual-energy X-ray imaging can be broadly categorized into three types, each with its own advantages and limitations . The first type is the DSDE system, which involves two X-ray tubes operating at high- and low-kilovoltage (kVp), respectively, and corresponding detectors positioned orthogonally (Scheme a) .…”
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