Free-breathing three-dimensional whole-heart adiabatic T1ρ mapping for non-contrast tissue characterization at 0.55T
Dongyue Si, Michael G. Crabb, Simon J. Littlewood, Karl P. Kunze, Claudia Prieto, René M. Botnar

TL;DR
This paper introduces a new 3D MRI technique for non-contrast heart imaging at low-field strength, improving accessibility and efficiency.
Contribution
A free-breathing 3D adiabatic T1ρ mapping sequence is developed for whole-heart tissue characterization at 0.55T.
Findings
Phantom T1ρ values showed strong agreement with 2D reference (R2 = 0.997).
In-vivo experiments achieved 2 mm isotropic resolution in 6.6 ± 0.5 minutes.
3D sequence had slightly higher T1ρ values but lower coefficient of variation than 2D.
Abstract
Commercial 0.55T low-field magnetic resonance imaging (MRI) systems have recently become available, offering the potential to enhance global accessibility to MRI. T1ρ mapping is an emerging quantitative cardiac MR imaging technique capable of detecting myocardial disease without the need for contrast administration. However, experience with cardiac T1ρ mapping at low-field strength remains limited. This study aims to develop and validate an efficient, free-breathing three-dimensional (3D) high-resolution adiabatic T1ρ mapping sequence for non-contrast whole-heart tissue characterization at 0.55T. The proposed 3D T1ρ mapping research sequence acquires four interleaved volumes with different contrast weightings using saturation and adiabatic spin-lock preparation pulses, and a 3-parameter fitting method is used to calculate T1ρ maps. Two-dimensional (2D) image navigators are acquired for…
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Taxonomy
TopicsCardiac Imaging and Diagnostics · Medical Imaging Techniques and Applications · Cardiovascular Function and Risk Factors
