Fat-free noncontrast whole-heart CMR with fast and power-optimized off-resonant water excitation pulses.

IF 4.2 1区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Journal of Cardiovascular Magnetic Resonance Pub Date : 2024-09-13 DOI:10.1016/j.jocmr.2024.101096
Adèle L C Mackowiak, Davide Piccini, Ruud B van Heeswijk, Roger Hullin, Christoph Gräni, Jessica A M Bastiaansen
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Abstract

Background: Cardiovascular MRI (CMR) faces challenges due to the interference of bright fat signals in visualizing structures like coronary arteries. Effective fat suppression is crucial, especially when using whole-heart CMR techniques. Conventional methods often fall short due to rapid fat signal recovery, leading to residual fat content hindering visualization. Water-selective off-resonant radiofrequency (RF) pulses have been proposed but come with tradeoffs between pulse duration, which increases scan time, and increased RF energy deposit, which limits their applicability due to specific absorption rate (SAR) constraints. The study introduces a lipid-insensitive binomial off-resonant (LIBOR) RF pulse, which addresses concerns about SAR and scan time, and aims to provide a comprehensive quantitative comparison with published off-resonant RF pulses for CMR at 3T.

Methods: A short (1ms) LIBOR pulse, with reduced RF power requirements, was developed and implemented in a free-breathing respiratory-self-navigated 3D radial whole-heart CMR sequence at 3T. A binomial off-resonant rectangular (BORR) pulse with matched duration, as well as previously published lipid-insensitive binomial off-resonant excitation (LIBRE) pulses (1ms and 2.2ms), were implemented and optimized for fat suppression in numerical simulations and validated in volunteers (n=3). Whole-heart CMR was performed in volunteers(n=10) with all four pulses. The signal-to-noise ratio (SNR) of ventricular blood, skeletal muscle, myocardium, and subcutaneous fat and the coronary vessel detection rates and sharpness were compared.

Results: Experimental results validated numerical findings and near homogeneous fat suppression was achieved with all four pulses. Comparing the short RF pulses (1ms), LIBOR reduced the RF power nearly two-fold compared with LIBRE, and three-fold compared with BORR, and LIBOR significantly decreased overall fat SNR from cardiac scans, compared to LIBRE and BORR. The reduction in RF pulse duration (from 2.2ms to 1ms) shortened the whole-heart acquisition from 8.5min to 7min. No significant differences in coronary arteries detection and sharpness were found when comparing all four pulses.

Conclusion: LIBOR pulses enabled whole-heart CMR under 7minutes at 3T, with large volume fat signal suppression, while reducing RF power compared with LIBRE and BORR pulses. LIBOR is an excellent candidate to address SAR problems encountered in CMR sequences where fat suppression remains challenging and short RF pulses are required.

Availability of data and materials: An online repository containing the anonymized human MRI raw data, as well as RF pulse shapes used in this study is publicly available at: https://zenodo.org/records/8338079(PART 1: KNEE V1-V3, HEART V1-V5) https://zenodo.org/records/10715769 (PART 2: HEART V6-V10) Matlab code to 1) simulate the different RF pulses within a GRE sequence and 2) to read and display the anonymized raw data is available from: https://github.com/QIS-MRI/LIBOR_LIBRE_BORR_SimulationCode The compiled research sequence can be requested through the Teamplay platform of Siemens Healthineers.

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使用快速、功率优化的非共振水激发脉冲进行无脂肪非对比全心 CMR。
背景:由于明亮的脂肪信号会干扰冠状动脉等结构的成像,心血管磁共振成像(CMR)面临着挑战。有效的脂肪抑制至关重要,尤其是在使用全心 CMR 技术时。由于脂肪信号恢复较快,传统方法往往达不到预期效果,导致残余脂肪含量阻碍可视化。已有人提出了水选择性非共振射频(RF)脉冲,但由于脉冲持续时间会增加扫描时间,而射频能量沉积会增加,从而限制了其适用性。本研究引入了对脂质不敏感的二项式非共振(LIBOR)射频脉冲,解决了人们对 SAR 和扫描时间的担忧,旨在与已发表的用于 3T CMR 的非共振射频脉冲进行全面的定量比较:方法:在 3T 下的自由呼吸-呼吸自导航三维径向全心 CMR 序列中开发并实施了一种短(1 毫秒)LIBOR 脉冲,降低了射频功率要求。在数值模拟中实施并优化了具有匹配持续时间的二叉非共振矩形脉冲(BORR)以及之前发表的脂质不敏感二叉非共振激励脉冲(LIBRE)(1 毫秒和 2.2 毫秒),以抑制脂肪,并在志愿者(n=3)中进行了验证。志愿者(n=10)使用所有四种脉冲进行了全心 CMR。比较了心室血液、骨骼肌、心肌和皮下脂肪的信噪比(SNR)以及冠状动脉血管的检测率和清晰度:实验结果验证了数值结果,所有四种脉冲都实现了近乎均匀的脂肪抑制。与短射频脉冲(1 毫秒)相比,LIBOR 的射频功率比 LIBRE 降低了近两倍,比 BORR 降低了三倍;与 LIBRE 和 BORR 相比,LIBOR 显著降低了心脏扫描的整体脂肪信噪比。射频脉冲持续时间的缩短(从 2.2 毫秒到 1 毫秒)将全心采集时间从 8.5 分钟缩短到 7 分钟。在比较所有四种脉冲时,冠状动脉检测和清晰度没有发现明显差异:结论:与 LIBRE 和 BORR 脉冲相比,LIBOR 脉冲使 3T 下的全心 CMR 在 7 分钟内完成,并能抑制大体积脂肪信号,同时降低了射频功率。LIBOR 是解决 CMR 序列中遇到的 SAR 问题的绝佳候选方案,在这种序列中,脂肪抑制仍然具有挑战性,并且需要短射频脉冲:包含匿名人体 MRI 原始数据以及本研究中使用的射频脉冲形状的在线资料库可从以下网址获取: https://zenodo.org/records/8338079(第 1 部分:KNEE V1-V3、HEART V1-V5) https://zenodo.org/records/10715769(第 2 部分:HEART V6-V10) Matlab 代码用于 1) 模拟 GRE 序列中的不同射频脉冲,以及 2) 读取和显示匿名原始数据,可从以下网址获取: https://github.com/QIS-MRI/LIBOR_LIBRE_BORR_SimulationCode 可通过西门子医疗集团的 Teamplay 平台申请编译研究序列。
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来源期刊
CiteScore
10.90
自引率
12.50%
发文量
61
审稿时长
6-12 weeks
期刊介绍: Journal of Cardiovascular Magnetic Resonance (JCMR) publishes high-quality articles on all aspects of basic, translational and clinical research on the design, development, manufacture, and evaluation of cardiovascular magnetic resonance (CMR) methods applied to the cardiovascular system. Topical areas include, but are not limited to: New applications of magnetic resonance to improve the diagnostic strategies, risk stratification, characterization and management of diseases affecting the cardiovascular system. New methods to enhance or accelerate image acquisition and data analysis. Results of multicenter, or larger single-center studies that provide insight into the utility of CMR. Basic biological perceptions derived by CMR methods.
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