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使用自校准分割回波方法的心脏加速快速自旋回波磁共振成像。

Accelerated fast spin-echo magnetic resonance imaging of the heart using a self-calibrated split-echo approach.

作者信息

Klix Sabrina, Hezel Fabian, Fuchs Katharina, Ruff Jan, Dieringer Matthias A, Niendorf Thoralf

机构信息

Berlin Ultrahigh Field Facility (B.U.F.F.), Max-Delbrueck-Center for Molecular Medicine, Berlin, Germany.

Siemens Healthcare, Erlangen, Germany.

出版信息

PLoS One. 2014 Apr 11;9(4):e94654. doi: 10.1371/journal.pone.0094654. eCollection 2014.

DOI:10.1371/journal.pone.0094654
PMID:24728341
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3984237/
Abstract

PURPOSE

Design, validation and application of an accelerated fast spin-echo (FSE) variant that uses a split-echo approach for self-calibrated parallel imaging.

METHODS

For self-calibrated, split-echo FSE (SCSE-FSE), extra displacement gradients were incorporated into FSE to decompose odd and even echo groups which were independently phase encoded to derive coil sensitivity maps, and to generate undersampled data (reduction factor up to R = 3). Reference and undersampled data were acquired simultaneously. SENSE reconstruction was employed.

RESULTS

The feasibility of SCSE-FSE was demonstrated in phantom studies. Point spread function performance of SCSE-FSE was found to be competitive with traditional FSE variants. The immunity of SCSE-FSE for motion induced mis-registration between reference and undersampled data was shown using a dynamic left ventricular model and cardiac imaging. The applicability of black blood prepared SCSE-FSE for cardiac imaging was demonstrated in healthy volunteers including accelerated multi-slice per breath-hold imaging and accelerated high spatial resolution imaging.

CONCLUSION

SCSE-FSE obviates the need of external reference scans for SENSE reconstructed parallel imaging with FSE. SCSE-FSE reduces the risk for mis-registration between reference scans and accelerated acquisitions. SCSE-FSE is feasible for imaging of the heart and of large cardiac vessels but also meets the needs of brain, abdominal and liver imaging.

摘要

目的

设计、验证并应用一种加速快速自旋回波(FSE)变体,该变体采用分离回波方法进行自校准并行成像。

方法

对于自校准分离回波FSE(SCSE-FSE),在FSE中加入额外的位移梯度,以分解奇数和偶数回波组,这些回波组被独立地进行相位编码以获得线圈灵敏度图,并生成欠采样数据(缩减因子高达R = 3)。同时采集参考数据和欠采样数据。采用灵敏度编码(SENSE)重建。

结果

在体模研究中证明了SCSE-FSE的可行性。发现SCSE-FSE的点扩散函数性能与传统FSE变体具有竞争力。使用动态左心室模型和心脏成像显示了SCSE-FSE对参考数据和欠采样数据之间运动诱导的配准错误的免疫性。在健康志愿者中证明了黑血制备的SCSE-FSE在心脏成像中的适用性,包括加速的每屏气多层成像和加速的高空间分辨率成像。

结论

SCSE-FSE消除了对用于FSE的SENSE重建并行成像的外部参考扫描的需求。SCSE-FSE降低了参考扫描和加速采集之间配准错误的风险。SCSE-FSE对于心脏和大心脏血管的成像可行,同时也满足脑、腹部和肝脏成像的需求。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a039/3984237/850b5a7f0fb2/pone.0094654.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a039/3984237/850b5a7f0fb2/pone.0094654.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a039/3984237/850b5a7f0fb2/pone.0094654.g001.jpg

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