Dual energy computed tomography for the head

Norihito Naruto; Toshihide Itoh; Kyo Noguchi

doi:10.1007/s11604-017-0701-4

Dual energy computed tomography for the head

Norihito Naruto, Toshihide Itoh, Kyo Noguchi^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

27 Scopus citations

Abstract

Dual energy CT (DECT) is a promising technology that provides better diagnostic accuracy in several brain diseases. DECT can generate various types of CT images from a single acquisition data set at high kV and low kV based on material decomposition algorithms. The two-material decomposition algorithm can separate bone/calcification from iodine accurately. The three-material decomposition algorithm can generate a virtual non-contrast image, which helps to identify conditions such as brain hemorrhage. A virtual monochromatic image has the potential to eliminate metal artifacts by reducing beam-hardening effects. DECT also enables exploration of advanced imaging to make diagnosis easier. One such novel application of DECT is the X-Map, which helps to visualize ischemic stroke in the brain without using iodine contrast medium.

Original language	English
Pages (from-to)	69-80
Number of pages	12
Journal	Japanese Journal of Radiology
Volume	36
Issue number	2
DOIs	https://doi.org/10.1007/s11604-017-0701-4
State	Published - 2018/02/01

Keywords

Bone removal
Brain hemorrhage
Dual energy CT
Dual source CT
Head
Monoenergetic image
X-Map

ASJC Scopus subject areas

Radiology Nuclear Medicine and imaging

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10.1007/s11604-017-0701-4

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title = "Dual energy computed tomography for the head",

abstract = "Dual energy CT (DECT) is a promising technology that provides better diagnostic accuracy in several brain diseases. DECT can generate various types of CT images from a single acquisition data set at high kV and low kV based on material decomposition algorithms. The two-material decomposition algorithm can separate bone/calcification from iodine accurately. The three-material decomposition algorithm can generate a virtual non-contrast image, which helps to identify conditions such as brain hemorrhage. A virtual monochromatic image has the potential to eliminate metal artifacts by reducing beam-hardening effects. DECT also enables exploration of advanced imaging to make diagnosis easier. One such novel application of DECT is the X-Map, which helps to visualize ischemic stroke in the brain without using iodine contrast medium.",

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author = "Norihito Naruto and Toshihide Itoh and Kyo Noguchi",

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AU - Naruto, Norihito

AU - Itoh, Toshihide

AU - Noguchi, Kyo

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N2 - Dual energy CT (DECT) is a promising technology that provides better diagnostic accuracy in several brain diseases. DECT can generate various types of CT images from a single acquisition data set at high kV and low kV based on material decomposition algorithms. The two-material decomposition algorithm can separate bone/calcification from iodine accurately. The three-material decomposition algorithm can generate a virtual non-contrast image, which helps to identify conditions such as brain hemorrhage. A virtual monochromatic image has the potential to eliminate metal artifacts by reducing beam-hardening effects. DECT also enables exploration of advanced imaging to make diagnosis easier. One such novel application of DECT is the X-Map, which helps to visualize ischemic stroke in the brain without using iodine contrast medium.

AB - Dual energy CT (DECT) is a promising technology that provides better diagnostic accuracy in several brain diseases. DECT can generate various types of CT images from a single acquisition data set at high kV and low kV based on material decomposition algorithms. The two-material decomposition algorithm can separate bone/calcification from iodine accurately. The three-material decomposition algorithm can generate a virtual non-contrast image, which helps to identify conditions such as brain hemorrhage. A virtual monochromatic image has the potential to eliminate metal artifacts by reducing beam-hardening effects. DECT also enables exploration of advanced imaging to make diagnosis easier. One such novel application of DECT is the X-Map, which helps to visualize ischemic stroke in the brain without using iodine contrast medium.

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KW - Brain hemorrhage

KW - Dual energy CT

KW - Dual source CT

KW - Head

KW - Monoenergetic image

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Dual energy computed tomography for the head

Abstract

Keywords

ASJC Scopus subject areas

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