Black-Blood Contrast in Cardiovascular MRI

Markus Henningsson; Shaihan Malik; Rene Botnar; Daniel Castellanos; Tarique Hussain; Tim Leiner

doi:10.1002/jmri.27399

Black-Blood Contrast in Cardiovascular MRI

Markus Henningsson, Shaihan Malik, Rene Botnar, Daniel Castellanos, Tarique Hussain, Tim Leiner

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Abstract

MRI is a versatile technique that offers many different options for tissue contrast, including suppressing the blood signal, so-called black-blood contrast. This contrast mechanism is extremely useful to visualize the vessel wall with high conspicuity or for characterization of tissue adjacent to the blood pool. In this review we cover the physics of black-blood contrast and different techniques to achieve blood suppression, from methods intrinsic to the imaging readout to magnetization preparation pulses that can be combined with arbitrary readouts, including flow-dependent and flow-independent techniques. We emphasize the technical challenges of black-blood contrast that can depend on flow and motion conditions, additional contrast weighting mechanisms (T1 , T2 , etc.), magnetic properties of the tissue, and spatial coverage. Finally, we describe specific implementations of black-blood contrast for different vascular beds. LEVEL OF EVIDENCE: 5 TECHNICAL EFFICACY STAGE: 5.

Original language	English
Pages (from-to)	61-80
Number of pages	20
Journal	Journal of Magnetic Resonance Imaging
Volume	55
Issue number	1
Early online date	19 Oct 2020
DOIs	https://doi.org/10.1002/jmri.27399
Publication status	Published - Jan 2022

Keywords

black-blood contrast
blood signal suppression
vessel wall imaging

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Magnetic Resonance Imaging - 2020 - Henningsson - Black‐Blood Contrast in Cardiovascular MRIFinal published version, 3.34 MBLicence: CC BY

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title = "Black-Blood Contrast in Cardiovascular MRI",

abstract = "MRI is a versatile technique that offers many different options for tissue contrast, including suppressing the blood signal, so-called black-blood contrast. This contrast mechanism is extremely useful to visualize the vessel wall with high conspicuity or for characterization of tissue adjacent to the blood pool. In this review we cover the physics of black-blood contrast and different techniques to achieve blood suppression, from methods intrinsic to the imaging readout to magnetization preparation pulses that can be combined with arbitrary readouts, including flow-dependent and flow-independent techniques. We emphasize the technical challenges of black-blood contrast that can depend on flow and motion conditions, additional contrast weighting mechanisms (T1 , T2 , etc.), magnetic properties of the tissue, and spatial coverage. Finally, we describe specific implementations of black-blood contrast for different vascular beds. LEVEL OF EVIDENCE: 5 TECHNICAL EFFICACY STAGE: 5.",

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year = "2022",

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doi = "10.1002/jmri.27399",

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AU - Henningsson, Markus

AU - Malik, Shaihan

AU - Botnar, Rene

AU - Castellanos, Daniel

AU - Hussain, Tarique

AU - Leiner, Tim

N1 - Funding Information: Contract grant sponsor: Swedish Research Council; Contract grant number: 2018‐04164. Publisher Copyright: © 2020 The Authors. Journal of Magnetic Resonance Imaging published by Wiley Periodicals LLC. on behalf of International Society for Magnetic Resonance in Medicine. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.

PY - 2022/1

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N2 - MRI is a versatile technique that offers many different options for tissue contrast, including suppressing the blood signal, so-called black-blood contrast. This contrast mechanism is extremely useful to visualize the vessel wall with high conspicuity or for characterization of tissue adjacent to the blood pool. In this review we cover the physics of black-blood contrast and different techniques to achieve blood suppression, from methods intrinsic to the imaging readout to magnetization preparation pulses that can be combined with arbitrary readouts, including flow-dependent and flow-independent techniques. We emphasize the technical challenges of black-blood contrast that can depend on flow and motion conditions, additional contrast weighting mechanisms (T1 , T2 , etc.), magnetic properties of the tissue, and spatial coverage. Finally, we describe specific implementations of black-blood contrast for different vascular beds. LEVEL OF EVIDENCE: 5 TECHNICAL EFFICACY STAGE: 5.

AB - MRI is a versatile technique that offers many different options for tissue contrast, including suppressing the blood signal, so-called black-blood contrast. This contrast mechanism is extremely useful to visualize the vessel wall with high conspicuity or for characterization of tissue adjacent to the blood pool. In this review we cover the physics of black-blood contrast and different techniques to achieve blood suppression, from methods intrinsic to the imaging readout to magnetization preparation pulses that can be combined with arbitrary readouts, including flow-dependent and flow-independent techniques. We emphasize the technical challenges of black-blood contrast that can depend on flow and motion conditions, additional contrast weighting mechanisms (T1 , T2 , etc.), magnetic properties of the tissue, and spatial coverage. Finally, we describe specific implementations of black-blood contrast for different vascular beds. LEVEL OF EVIDENCE: 5 TECHNICAL EFFICACY STAGE: 5.

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Black-Blood Contrast in Cardiovascular MRI

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