What type of study is this?

This is a Quantitative Study study.

September 17, 2025

Deep Image Prior Denoising of Cardiac FISP-MRF T1, T2 and M0 Maps at 0.55T

Key Points

DIP improved the precision of cardiac maps compared to low-rank methods, indicating potential in low SNR settings.
Cardiac MR fingerprinting at 0.55T yielded high-quality T1 and T2 maps, with mean values of 678 ms and 50.4 ms respectively.
Phantom and subject data were acquired to validate the effectiveness of combining cMRF with DIP for enhancing map quality.
The findings suggest that FISP-based mapping using DIP may enhance myocardial tissue characterization at low field strengths.

Abstract

Motivation: 0.55T scanners offer several potential advantages for quantitative myocardial tissue characterization. However, a challenge at low field is the reduced SNR, which can lead to decreased precision that may compromise the utility of mapping at 0.55T. Goal(s): To combine cardiac MR Fingerprinting (cMRF) with a Deep Image Prior (DIP) to improve mapping precision at 0.55T. Approach: cMRF data were acquired in phantoms and 10 healthy subjects at 0.55T, with maps compared using low-rank and DIP reconstruction techniques. Results: cMRF at 0.55T yielded high-quality maps in all subjects (mean T1 678 +/-24ms, T2 50.4 +/-5.8ms), with DIP yielding improved precision than the low-rank reconstruction. Impact: This study demonstrates the feasibility of FISP-based cardiac MR Fingerprinting for T1, T2, and M0 mapping at 0.55T using a Deep Image Prior reconstruction to suppress noise at low field, outperforming a low-rank MRF reconstruction method.

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Cite This Study

Liu et al. (Tue,) studied this question.

synapsesocial.com/papers/68d45b0b31b076d99fa5d316 https://doi.org/https://doi.org/10.58530/2025/4324

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