Three-dimensional velocity vector image obtained via 4-dimensional flow magnetic resonance imaging for in-stent flow visualization in the superficial femoral artery

Three-dimensional velocity vector image obtained via 4-dimensional flow magnetic resonance imaging for in-stent flow visualization in the superficial femoral artery

The assessment of stent lumen patency via non–contrast-enhanced 2-dimensional time-of-flight magnetic resonance angiography (2D TOF MRA) is complex due to stent-related artifacts. However, an imaging technique using the phase-contrast method, which can reduce susceptibility to artifact, is available...

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Main Authors: Mitsunari Maruyama, MD, PhD, Hiroya Aso, RT, PhD, Hisatoshi Araki, MD, Rika Yoshida, MD, PhD, Shinji Ando, MD, Megumi Nakamura, MD, PhD, Takeshi Yoshizako, MD, PhD, Yasushi Kaji, MD, PhD
Format: Article
Language:English
Published: Elsevier 2023-03-01
Series:Radiology Case Reports
Subjects:
Four-dimensional flow magnetic resonance imaging
Stent
Endovascular therapy
Online Access:http://www.sciencedirect.com/science/article/pii/S1930043322011311
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author Mitsunari Maruyama, MD, PhD
Hiroya Aso, RT, PhD
Hisatoshi Araki, MD
Rika Yoshida, MD, PhD
Shinji Ando, MD
Megumi Nakamura, MD, PhD
Takeshi Yoshizako, MD, PhD
Yasushi Kaji, MD, PhD
author_facet Mitsunari Maruyama, MD, PhD
Hiroya Aso, RT, PhD
Hisatoshi Araki, MD
Rika Yoshida, MD, PhD
Shinji Ando, MD
Megumi Nakamura, MD, PhD
Takeshi Yoshizako, MD, PhD
Yasushi Kaji, MD, PhD
author_sort Mitsunari Maruyama, MD, PhD
collection DOAJ
description The assessment of stent lumen patency via non–contrast-enhanced 2-dimensional time-of-flight magnetic resonance angiography (2D TOF MRA) is complex due to stent-related artifacts. However, an imaging technique using the phase-contrast method, which can reduce susceptibility to artifact, is available. Herein, we report the use of 3-dimensional velocity vector image obtained via 4-dimensional flow magnetic resonance imaging (4D flow MRI) for in-stent flow visualization after stent development in the right superficial femoral artery. Hence, instead of 2D TOF MRA, 4D flow MRI using the phase-contrast method can be performed to assess stent lumen patency as it reduces stent-related artifacts.
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spelling doaj.art-79dfdc0208944195b615eaf011ee74682023-01-29T04:20:35ZengElsevierRadiology Case Reports1930-04332023-03-0118313021305Three-dimensional velocity vector image obtained via 4-dimensional flow magnetic resonance imaging for in-stent flow visualization in the superficial femoral arteryMitsunari Maruyama, MD, PhD0Hiroya Aso, RT, PhD1Hisatoshi Araki, MD2Rika Yoshida, MD, PhD3Shinji Ando, MD4Megumi Nakamura, MD, PhD5Takeshi Yoshizako, MD, PhD6Yasushi Kaji, MD, PhD7Corresponding author.; Department of Radiology, Shimane University Faculty of Medicine, P.O. Box 00693-8501, 89-1 Enya cho, Izumo, JapanDepartment of Radiology, Shimane University Faculty of Medicine, P.O. Box 00693-8501, 89-1 Enya cho, Izumo, JapanDepartment of Radiology, Shimane University Faculty of Medicine, P.O. Box 00693-8501, 89-1 Enya cho, Izumo, JapanDepartment of Radiology, Shimane University Faculty of Medicine, P.O. Box 00693-8501, 89-1 Enya cho, Izumo, JapanDepartment of Radiology, Shimane University Faculty of Medicine, P.O. Box 00693-8501, 89-1 Enya cho, Izumo, JapanDepartment of Radiology, Shimane University Faculty of Medicine, P.O. Box 00693-8501, 89-1 Enya cho, Izumo, JapanDepartment of Radiology, Shimane University Faculty of Medicine, P.O. Box 00693-8501, 89-1 Enya cho, Izumo, JapanDepartment of Radiology, Shimane University Faculty of Medicine, P.O. Box 00693-8501, 89-1 Enya cho, Izumo, JapanThe assessment of stent lumen patency via non–contrast-enhanced 2-dimensional time-of-flight magnetic resonance angiography (2D TOF MRA) is complex due to stent-related artifacts. However, an imaging technique using the phase-contrast method, which can reduce susceptibility to artifact, is available. Herein, we report the use of 3-dimensional velocity vector image obtained via 4-dimensional flow magnetic resonance imaging (4D flow MRI) for in-stent flow visualization after stent development in the right superficial femoral artery. Hence, instead of 2D TOF MRA, 4D flow MRI using the phase-contrast method can be performed to assess stent lumen patency as it reduces stent-related artifacts.http://www.sciencedirect.com/science/article/pii/S1930043322011311Four-dimensional flow magnetic resonance imagingStentEndovascular therapy
spellingShingle Mitsunari Maruyama, MD, PhD
Hiroya Aso, RT, PhD
Hisatoshi Araki, MD
Rika Yoshida, MD, PhD
Shinji Ando, MD
Megumi Nakamura, MD, PhD
Takeshi Yoshizako, MD, PhD
Yasushi Kaji, MD, PhD
Three-dimensional velocity vector image obtained via 4-dimensional flow magnetic resonance imaging for in-stent flow visualization in the superficial femoral artery
Radiology Case Reports
Four-dimensional flow magnetic resonance imaging
Stent
Endovascular therapy
title Three-dimensional velocity vector image obtained via 4-dimensional flow magnetic resonance imaging for in-stent flow visualization in the superficial femoral artery
title_full Three-dimensional velocity vector image obtained via 4-dimensional flow magnetic resonance imaging for in-stent flow visualization in the superficial femoral artery
title_fullStr Three-dimensional velocity vector image obtained via 4-dimensional flow magnetic resonance imaging for in-stent flow visualization in the superficial femoral artery
title_full_unstemmed Three-dimensional velocity vector image obtained via 4-dimensional flow magnetic resonance imaging for in-stent flow visualization in the superficial femoral artery
title_short Three-dimensional velocity vector image obtained via 4-dimensional flow magnetic resonance imaging for in-stent flow visualization in the superficial femoral artery
title_sort three dimensional velocity vector image obtained via 4 dimensional flow magnetic resonance imaging for in stent flow visualization in the superficial femoral artery
topic Four-dimensional flow magnetic resonance imaging
Stent
Endovascular therapy
url http://www.sciencedirect.com/science/article/pii/S1930043322011311
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