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用于心肌血氧水平依赖成像的 artifact 减少二维电影稳态自由进动。

Artifact-reduced two-dimensional cine steady state free precession for myocardial blood- oxygen-level-dependent imaging.

机构信息

Department of Radiology, Northwestern University, Chicago, Illinois 60611, USA.

出版信息

J Magn Reson Imaging. 2010 Apr;31(4):863-71. doi: 10.1002/jmri.22116.

DOI:10.1002/jmri.22116
PMID:20373430
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2919359/
Abstract

PURPOSE

To minimize image artifacts in long TR cardiac phase-resolved steady state free precession (SSFP) based blood-oxygen-level-dependent (BOLD) imaging.

MATERIALS AND METHODS

Nine healthy dogs (four male, five female, 20-25 kg) were studied in a clinical 1.5 Tesla MRI scanner to investigate the effect of temporal resolution, readout bandwidth, and motion compensation on long repetition time (TR) SSFP images. Breath-held 2D SSFP cine sequences with various temporal resolutions (10-204 ms), bandwidths (239-930 Hz/pixel), with and without first-order motion compensation were prescribed in the basal, mid-ventricular, and apical along the short axis. Preliminary myocardial BOLD studies in dogs with controllable coronary stenosis were performed to assess the benefits of artifact-reduction strategies.

RESULTS

Shortening the readout time by means of increasing readout bandwidth had no observable reduction in image artifacts. However, increasing the temporal resolution in the presence of first-order motion compensation led to significant reduction in image artifacts. Preliminary studies demonstrated that BOLD signal changes can be reliably detected throughout the cardiac cycle.

CONCLUSION

Artifact-reduction methods used in this study provide significant improvement in image quality compared with conventional long TR SSFP BOLD MRI. It is envisioned that the methods proposed here may enable reliable detection of myocardial oxygenation changes throughout the cardiac cycle with long TR SSFP-based myocardial BOLD MRI.

摘要

目的

最小化长重复时间(TR)相位分辨稳态自由进动(SSFP)基于血氧水平依赖(BOLD)成像中的图像伪影。

材料和方法

在临床 1.5T MRI 扫描仪中对 9 只健康犬(4 只雄性,5 只雌性,20-25kg)进行研究,以调查时间分辨率、读出带宽和运动补偿对长 TR SSFP 图像的影响。在基底、中室和心尖短轴方向上,规定了具有不同时间分辨率(10-204ms)、带宽(239-930Hz/像素)的呼吸门控 2D SSFP 电影序列,包括有无一阶运动补偿。在可控制冠状动脉狭窄的犬中进行了初步的心肌 BOLD 研究,以评估减少伪影策略的益处。

结果

通过增加读出带宽来缩短读出时间并没有明显减少图像伪影。然而,在存在一阶运动补偿的情况下增加时间分辨率会显著减少图像伪影。初步研究表明,BOLD 信号变化可以在整个心动周期中可靠地检测到。

结论

与传统的长 TR SSFP BOLD MRI 相比,本研究中使用的减少伪影的方法可显著提高图像质量。预计,这里提出的方法可能使基于长 TR SSFP 的心肌 BOLD MRI 能够可靠地检测整个心动周期中的心肌氧合变化。

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