Improved myocardial scar visualization using free-breathing motion-corrected wideband black-blood late gadolinium enhancement imaging in patients with implantable cardiac devices - 06/05/25
Highlights |
• | Free-breathing wideband black-blood late gadolinium enhancement cardiac MR images are reconstructed in <2 s. |
• | Non-rigid motion reconstruction enables motion-free black-blood late gadolinium enhancement cardiac MR imaging. |
• | Free-breathing wideband black-blood late gadolinium enhancement MR imaging enables improved detection of myocardial scar and suppression of artifacts in the myocardium associated with implantable cardiac devices. |
ABSTRACT |
Purpose |
The purpose of this study was to introduce and evaluate a novel 2D wideband black-blood (BB) LGE sequence, incorporating wideband inversion recovery, wideband T2 preparation, and non-rigid motion correction (MOCO) reconstruction, to improve myocardial scar detection and address artifacts associated with implantable cardioverter defibrillators (ICDs).
Materials and methods |
The wideband MOCO free-breathing BB-LGE sequence was tested on a sheep with ischemic scar and in 22 patients with cardiac disease, including 15 with cardiac implants, at 1.5T. Wideband MOCO free-breathing BB-LGE sequence was compared with conventional and wideband breath-held PSIR-LGE and conventional and wideband breath-held BB-LGE techniques. Image sharpness, entropy, and scar-to-blood, scar-to-myocardium, and blood-to-myocardium contrast were analyzed and reconstruction times were measured. Two expert readers assessed the image quality, ICD artifact severity, and the diagnostic confidence with scar extent. Finally, for the animal study, a histology of the heart was performed to confirm the presence and localization of scar tissue.
Results |
In the animal, wideband MOCO free-breathing BB-LGE were reconstructed in 0.6 s and demonstrated a 200 % improvement in scar-to-blood contrast compared to wideband breath-held PSIR-LGE, with significant improvement in image sharpness and reduction in entropy. It also effectively minimized ICD artifacts and accurately detected scars. In patients, wideband MOCO free-breathing BB-LGE were reconstructed in 1.5 ± 0.4 (standard deviation) s per slice. Seventeen patients (17/22; 77%) with myocardial scars were confidently diagnosed with wideband MOCO free-breathing BB-LGE, compared to 11 (11/22; 50 %) with wideband breath-held PSIR-LGE (P < 0.01).
Conclusion |
Free-breathing wideband T2-prepared black-blood LGE imaging, combined with motion-corrected reconstruction, offers a promising diagnostic approach for the evaluation of myocardial lesions in patients with ICDs.
Le texte complet de cet article est disponible en PDF.Keywords : Black blood imaging, Implantable cardioverter defibrillator, Cardiac magnetic resonance imaging, Motion artifacts, Myocardial infarction
Abbreviations : 2D, AHA, BB, BW, CI, CIED, CMR, CRT-D, GRAPPA, GRE, ICD, IR, LGE, LVEF, MOCO, MRI, N/A, NYHA, PSIR, Q1, Q3, RVEF, S-ICD, SA, SCA, SD, T2prep, TI, TV- ICD, VT
Plan
Vol 106 - N° 5
P. 169-182 - mai 2025 Retour au numéro
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