High-Resolution Free-Breathing Quantitative First-Pass Perfusion Cardiac MR Using Dual-Echo Dixon With Spatio-Temporal Acceleration

Joao Tourais; Cian M. Scannell; Torben Schneider; Ebraham Alskaf; Richard Crawley; Filippo Bosio; Javier Sanchez-Gonzalez; Mariya Doneva; Christophe Schülke; Jakob Meineke; Jochen Keupp; Jouke Smink; Marcel Breeuwer; Amedeo Chiribiri; Markus Henningsson; Teresa Correia

doi:10.3389/fcvm.2022.884221

High-Resolution Free-Breathing Quantitative First-Pass Perfusion Cardiac MR Using Dual-Echo Dixon With Spatio-Temporal Acceleration

Joao Tourais
, Cian M. Scannell
, Torben Schneider
, Ebraham Alskaf
, Richard Crawley
, Filippo Bosio
, Javier Sanchez-Gonzalez
, Mariya Doneva
, Christophe Schülke
, Jakob Meineke
, Jochen Keupp
, Jouke Smink
, Marcel Breeuwer
, Amedeo Chiribiri
, Markus Henningsson
, Teresa Correia (Corresponding author)

Research output: Contribution to journal › Article › Academic › peer-review

6 Citations (Scopus)

69 Downloads (Pure)

Abstract

Introduction: To develop and test the feasibility of free-breathing (FB), high-resolution quantitative first-pass perfusion cardiac MR (FPP-CMR) using dual-echo Dixon (FOSTERS; Fat-water separation for mOtion-corrected Spatio-TEmporally accelerated myocardial peRfuSion).

Materials and Methods: FOSTERS was performed in FB using a dual-saturation single-bolus acquisition with dual-echo Dixon and a dynamically variable Cartesian k-t undersampling (8-fold) approach, with low-rank and sparsity constrained reconstruction, to achieve high-resolution FPP-CMR images. FOSTERS also included automatic in-plane motion estimation and T 2 * correction to obtain quantitative myocardial blood flow (MBF) maps. High-resolution (1.6 x 1.6 mm 2) FB FOSTERS was evaluated in eleven patients, during rest, against standard-resolution (2.6 x 2.6 mm 2) 2-fold SENSE-accelerated breath-hold (BH) FPP-CMR. In addition, MBF was computed for FOSTERS and spatial wavelet-based compressed sensing (CS) reconstruction. Two cardiologists scored the image quality (IQ) of FOSTERS, CS, and standard BH FPP-CMR images using a 4-point scale (1-4, non-diagnostic - fully diagnostic).

Results: FOSTERS produced high-quality images without dark-rim and with reduced motion-related artifacts, using an 8x accelerated FB acquisition. FOSTERS and standard BH FPP-CMR exhibited excellent IQ with an average score of 3.5 ± 0.6 and 3.4 ± 0.6 (no statistical difference, p > 0.05), respectively. CS images exhibited severe artifacts and high levels of noise, resulting in an average IQ score of 2.9 ± 0.5. MBF values obtained with FOSTERS presented a lower variance than those obtained with CS.

Discussion: FOSTERS enabled high-resolution FB FPP-CMR with MBF quantification. Combining motion correction with a low-rank and sparsity-constrained reconstruction results in excellent image quality.

Original language	English
Article number	884221
Number of pages	10
Journal	Frontiers in Cardiovascular Medicine
Volume	9
DOIs	https://doi.org/10.3389/fcvm.2022.884221
Publication status	Published - 29 Apr 2022

Keywords

Dixon
free-breathing
high-resolution
motion correction
myocardial perfusion
quantitative myocardial blood flow

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10.3389/fcvm.2022.884221

fcvm-09-884221Final published version, 2.03 MBLicence: CC BY

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Tourais, J., Scannell, C. M., Schneider, T., Alskaf, E., Crawley, R., Bosio, F., Sanchez-Gonzalez, J., Doneva, M., Schülke, C., Meineke, J., Keupp, J., Smink, J., Breeuwer, M., Chiribiri, A., Henningsson, M., & Correia, T. (2022). High-Resolution Free-Breathing Quantitative First-Pass Perfusion Cardiac MR Using Dual-Echo Dixon With Spatio-Temporal Acceleration. Frontiers in Cardiovascular Medicine, 9, Article 884221. https://doi.org/10.3389/fcvm.2022.884221

@article{b2017c80493143b5b7767abd1dcfa99a,

title = "High-Resolution Free-Breathing Quantitative First-Pass Perfusion Cardiac MR Using Dual-Echo Dixon With Spatio-Temporal Acceleration",

abstract = "Introduction: To develop and test the feasibility of free-breathing (FB), high-resolution quantitative first-pass perfusion cardiac MR (FPP-CMR) using dual-echo Dixon (FOSTERS; Fat-water separation for mOtion-corrected Spatio-TEmporally accelerated myocardial peRfuSion).Materials and Methods: FOSTERS was performed in FB using a dual-saturation single-bolus acquisition with dual-echo Dixon and a dynamically variable Cartesian k-t undersampling (8-fold) approach, with low-rank and sparsity constrained reconstruction, to achieve high-resolution FPP-CMR images. FOSTERS also included automatic in-plane motion estimation and T 2 * correction to obtain quantitative myocardial blood flow (MBF) maps. High-resolution (1.6 x 1.6 mm 2) FB FOSTERS was evaluated in eleven patients, during rest, against standard-resolution (2.6 x 2.6 mm 2) 2-fold SENSE-accelerated breath-hold (BH) FPP-CMR. In addition, MBF was computed for FOSTERS and spatial wavelet-based compressed sensing (CS) reconstruction. Two cardiologists scored the image quality (IQ) of FOSTERS, CS, and standard BH FPP-CMR images using a 4-point scale (1-4, non-diagnostic - fully diagnostic). Results: FOSTERS produced high-quality images without dark-rim and with reduced motion-related artifacts, using an 8x accelerated FB acquisition. FOSTERS and standard BH FPP-CMR exhibited excellent IQ with an average score of 3.5 ± 0.6 and 3.4 ± 0.6 (no statistical difference, p > 0.05), respectively. CS images exhibited severe artifacts and high levels of noise, resulting in an average IQ score of 2.9 ± 0.5. MBF values obtained with FOSTERS presented a lower variance than those obtained with CS. Discussion: FOSTERS enabled high-resolution FB FPP-CMR with MBF quantification. Combining motion correction with a low-rank and sparsity-constrained reconstruction results in excellent image quality.",

keywords = "Dixon, free-breathing, high-resolution, motion correction, myocardial perfusion, quantitative myocardial blood flow",

author = "Joao Tourais and Scannell, \{Cian M.\} and Torben Schneider and Ebraham Alskaf and Richard Crawley and Filippo Bosio and Javier Sanchez-Gonzalez and Mariya Doneva and Christophe Sch{\"u}lke and Jakob Meineke and Jochen Keupp and Jouke Smink and Marcel Breeuwer and Amedeo Chiribiri and Markus Henningsson and Teresa Correia",

note = "Copyright {\textcopyright} 2022 Tourais, Scannell, Schneider, Alskaf, Crawley, Bosio, Sanchez-Gonzalez, Doneva, Sch{\"u}lke, Meineke, Keupp, Smink, Breeuwer, Chiribiri, Henningsson and Correia.",

year = "2022",

month = apr,

day = "29",

doi = "10.3389/fcvm.2022.884221",

language = "English",

volume = "9",

journal = "Frontiers in Cardiovascular Medicine",

issn = "2297-055X",

publisher = "Frontiers Media S.A.",

}

Tourais, J, Scannell, CM, Schneider, T, Alskaf, E, Crawley, R, Bosio, F, Sanchez-Gonzalez, J, Doneva, M, Schülke, C, Meineke, J, Keupp, J, Smink, J, Breeuwer, M, Chiribiri, A, Henningsson, M & Correia, T 2022, 'High-Resolution Free-Breathing Quantitative First-Pass Perfusion Cardiac MR Using Dual-Echo Dixon With Spatio-Temporal Acceleration', Frontiers in Cardiovascular Medicine, vol. 9, 884221. https://doi.org/10.3389/fcvm.2022.884221

TY - JOUR

T1 - High-Resolution Free-Breathing Quantitative First-Pass Perfusion Cardiac MR Using Dual-Echo Dixon With Spatio-Temporal Acceleration

AU - Tourais, Joao

AU - Scannell, Cian M.

AU - Schneider, Torben

AU - Alskaf, Ebraham

AU - Crawley, Richard

AU - Bosio, Filippo

AU - Sanchez-Gonzalez, Javier

AU - Doneva, Mariya

AU - Schülke, Christophe

AU - Meineke, Jakob

AU - Keupp, Jochen

AU - Smink, Jouke

AU - Breeuwer, Marcel

AU - Chiribiri, Amedeo

AU - Henningsson, Markus

AU - Correia, Teresa

PY - 2022/4/29

Y1 - 2022/4/29

N2 - Introduction: To develop and test the feasibility of free-breathing (FB), high-resolution quantitative first-pass perfusion cardiac MR (FPP-CMR) using dual-echo Dixon (FOSTERS; Fat-water separation for mOtion-corrected Spatio-TEmporally accelerated myocardial peRfuSion).Materials and Methods: FOSTERS was performed in FB using a dual-saturation single-bolus acquisition with dual-echo Dixon and a dynamically variable Cartesian k-t undersampling (8-fold) approach, with low-rank and sparsity constrained reconstruction, to achieve high-resolution FPP-CMR images. FOSTERS also included automatic in-plane motion estimation and T 2 * correction to obtain quantitative myocardial blood flow (MBF) maps. High-resolution (1.6 x 1.6 mm 2) FB FOSTERS was evaluated in eleven patients, during rest, against standard-resolution (2.6 x 2.6 mm 2) 2-fold SENSE-accelerated breath-hold (BH) FPP-CMR. In addition, MBF was computed for FOSTERS and spatial wavelet-based compressed sensing (CS) reconstruction. Two cardiologists scored the image quality (IQ) of FOSTERS, CS, and standard BH FPP-CMR images using a 4-point scale (1-4, non-diagnostic - fully diagnostic). Results: FOSTERS produced high-quality images without dark-rim and with reduced motion-related artifacts, using an 8x accelerated FB acquisition. FOSTERS and standard BH FPP-CMR exhibited excellent IQ with an average score of 3.5 ± 0.6 and 3.4 ± 0.6 (no statistical difference, p > 0.05), respectively. CS images exhibited severe artifacts and high levels of noise, resulting in an average IQ score of 2.9 ± 0.5. MBF values obtained with FOSTERS presented a lower variance than those obtained with CS. Discussion: FOSTERS enabled high-resolution FB FPP-CMR with MBF quantification. Combining motion correction with a low-rank and sparsity-constrained reconstruction results in excellent image quality.

AB - Introduction: To develop and test the feasibility of free-breathing (FB), high-resolution quantitative first-pass perfusion cardiac MR (FPP-CMR) using dual-echo Dixon (FOSTERS; Fat-water separation for mOtion-corrected Spatio-TEmporally accelerated myocardial peRfuSion).Materials and Methods: FOSTERS was performed in FB using a dual-saturation single-bolus acquisition with dual-echo Dixon and a dynamically variable Cartesian k-t undersampling (8-fold) approach, with low-rank and sparsity constrained reconstruction, to achieve high-resolution FPP-CMR images. FOSTERS also included automatic in-plane motion estimation and T 2 * correction to obtain quantitative myocardial blood flow (MBF) maps. High-resolution (1.6 x 1.6 mm 2) FB FOSTERS was evaluated in eleven patients, during rest, against standard-resolution (2.6 x 2.6 mm 2) 2-fold SENSE-accelerated breath-hold (BH) FPP-CMR. In addition, MBF was computed for FOSTERS and spatial wavelet-based compressed sensing (CS) reconstruction. Two cardiologists scored the image quality (IQ) of FOSTERS, CS, and standard BH FPP-CMR images using a 4-point scale (1-4, non-diagnostic - fully diagnostic). Results: FOSTERS produced high-quality images without dark-rim and with reduced motion-related artifacts, using an 8x accelerated FB acquisition. FOSTERS and standard BH FPP-CMR exhibited excellent IQ with an average score of 3.5 ± 0.6 and 3.4 ± 0.6 (no statistical difference, p > 0.05), respectively. CS images exhibited severe artifacts and high levels of noise, resulting in an average IQ score of 2.9 ± 0.5. MBF values obtained with FOSTERS presented a lower variance than those obtained with CS. Discussion: FOSTERS enabled high-resolution FB FPP-CMR with MBF quantification. Combining motion correction with a low-rank and sparsity-constrained reconstruction results in excellent image quality.

KW - Dixon

KW - free-breathing

KW - high-resolution

KW - motion correction

KW - myocardial perfusion

KW - quantitative myocardial blood flow

UR - https://www.scopus.com/pages/publications/85138692128

U2 - 10.3389/fcvm.2022.884221

DO - 10.3389/fcvm.2022.884221

M3 - Article

C2 - 35571164

SN - 2297-055X

VL - 9

JO - Frontiers in Cardiovascular Medicine

JF - Frontiers in Cardiovascular Medicine

M1 - 884221

ER -

High-Resolution Free-Breathing Quantitative First-Pass Perfusion Cardiac MR Using Dual-Echo Dixon With Spatio-Temporal Acceleration

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