通过在扰相稳态下使用连续径向交错同步多层采集(CRIMP)进行全心、非门控、自由呼吸、心脏期分辨的心肌灌注磁共振成像。
Whole-heart, ungated, free-breathing, cardiac-phase-resolved myocardial perfusion MRI by using Continuous Radial Interleaved simultaneous Multi-slice acquisitions at sPoiled steady-state (CRIMP).
作者信息
Tian Ye, Mendes Jason, Wilson Brent, Ross Alexander, Ranjan Ravi, DiBella Edward, Adluru Ganesh
机构信息
Utah Center for Advanced Imaging Research (UCAIR), Department of Radiology and Imaging Sciences, University of Utah, Salt Lake City, Utah, USA.
Department of Physics and Astronomy, University of Utah, Salt Lake City, Utah, USA.
出版信息
Magn Reson Med. 2020 Dec;84(6):3071-3087. doi: 10.1002/mrm.28337. Epub 2020 Jun 3.
PURPOSE
To develop a whole-heart, free-breathing, non-electrocardiograph (ECG)-gated, cardiac-phase-resolved myocardial perfusion MRI framework (CRIMP; Continuous Radial Interleaved simultaneous Multi-slice acquisitions at sPoiled steady-state) and test its quantification feasibility.
METHODS
CRIMP used interleaved radial simultaneous multi-slice (SMS) slice groups to cover the whole heart in 9 or 12 short-axis slices. The sequence continuously acquired data without magnetization preparation, ECG gating or breath-holding, and captured multiple cardiac phases. Images were reconstructed by a motion-compensated patch-based locally low-rank reconstruction. Bloch simulations were performed to study the signal-to-noise ratio/contrast-to-noise ratio (SNR/CNR) for CRIMP and to study the steady-state signal under motion. Seven patients were scanned with CRIMP at stress and rest to develop the sequence. One human and two dogs were scanned at rest with a dual-bolus method to test the quantification feasibility of CRIMP. The dual-bolus scans were performed using both CRIMP and an ungated radial SMS saturation recovery (SMS-SR) sequence with injection dose = 0.075 mmol/kg to compare the sequences in terms of SNR, cardiac phase resolution and quantitative myocardial blood flow (MBF).
RESULTS
Perfusion images with multiple cardiac phases in all image slices with a temporal resolution of 72 ms/frame were obtained. Simulations and in-vivo acquisitions showed CRIMP kept the inner slices in steady-state regardless of motion. CRIMP outperformed SMS-SR in slice coverage (9 over 6), SNR (mean 20% improvement), and provided cardiac phase resolution. CRIMP and SMS-SR sequences provided comparable MBF values (rest systolic CRIMP = 0.58 ± 0.07, SMS-SR = 0.61 ± 0.16).
CONCLUSION
CRIMP allows for whole-heart, cardiac-phase-resolved myocardial perfusion images without ECG-gating or breath-holding. The sequence can provide MBF if an accurate arterial input function is obtained separately.
目的
开发一种全心、自由呼吸、非心电图(ECG)门控、心脏相位分辨心肌灌注磁共振成像框架(CRIMP; spoiled稳态下的连续径向交错同步多层采集)并测试其定量可行性。
方法
CRIMP使用交错径向同步多层(SMS)切片组,以9或12个短轴切片覆盖整个心脏。该序列在没有磁化准备、ECG门控或屏气的情况下连续采集数据,并捕获多个心脏相位。图像通过基于运动补偿补丁的局部低秩重建进行重建。进行Bloch模拟以研究CRIMP的信噪比/对比噪声比(SNR/CNR),并研究运动下的稳态信号。7名患者在负荷和静息状态下用CRIMP进行扫描以开发该序列。1名健康受试者和2只犬在静息状态下采用双注射法进行扫描,以测试CRIMP的定量可行性。使用CRIMP和非门控径向SMS饱和恢复(SMS-SR)序列进行双注射扫描,注射剂量 = 0.075 mmol/kg,以比较序列在SNR、心脏相位分辨率和定量心肌血流量(MBF)方面的差异。
结果
获得了所有图像切片中具有多个心脏相位的灌注图像,时间分辨率为72 ms/帧。模拟和体内采集表明,无论运动如何,CRIMP都能使内部切片保持在稳态。CRIMP在切片覆盖范围(9个对6个)、SNR(平均提高20%)方面优于SMS-SR,并提供了心脏相位分辨率。CRIMP和SMS-SR序列提供了可比的MBF值(静息收缩期CRIMP = 0.58 ± 0.07,SMS-SR = 0.61 ± 0.16)。
结论
CRIMP无需ECG门控或屏气即可获得全心、心脏相位分辨的心肌灌注图像。如果单独获得准确的动脉输入函数,该序列可以提供MBF。
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