Josef Lissner Laboratory for Biomedical Imaging, Ludwig-Maximilians-University Hospital Munich, Germany.
Invest Radiol. 2013 Mar;48(3):158-66. doi: 10.1097/RLI.0b013e31827f1b68.
The aim of this study was to evaluate free-breathing single-shot real-time cine imaging for functional cardiac imaging at 3 T with increased spatial resolution. Special emphasis of this study was placed on the influence of parallel imaging techniques.
Gradient echo phantom images were acquired with GRAPPA and modified SENSE reconstruction using both integrated and separate reference scans as well as TGRAPPA and TSENSE. In vivo measurements were performed for GRAPPA reconstruction with an integrated and a separate reference scan, as well as TGRAPPA using balanced steady-state free precession protocols. Three clinical protocols, rtLRInt (Tres = 51.3 milliseconds; voxel, 2.5 × 5.0 × 10 mm³), rtMRSep (Tres = 48.8 milliseconds; voxel, 1.9 × 3.1 × 10 mm³), and rtHRSep (Tres = 48.3 milliseconds; voxel, 1.6 × 2.6 × 10 mm), were investigated on 20 volunteers using GRAPPA reconstruction with internal as well as separate reference scans. End-diastolic volume, end-systolic volume, ejection fraction, peak ejection rate, peak filling rate, and myocardial mass were evaluated for the left ventricle and compared with an electrocardiogram-triggered segmented readout cine protocol used as standard of reference. All studies were performed at 3 T.
Phantom and in vivo data demonstrate that the combination of GRAPPA reconstruction with a separate reference scan provides an optimal compromise of image quality as well as spatial and temporal resolution. Functional values (P values) for the standard of reference, rtLRInt, rtMRSep, and rtHRSep end-diastolic volume were 141 ± 24 mL, 138 ± 21 mL, 138 ± 19 mL, and 128 ± 33 mL, respectively (P = 0.7, 0.7, 0.4); end-systolic volume, 55 ± 15 mL, 61 ± 14 mL, 58 ± 12 mL, and 55 ± 20 mL, respectively (P = 0.23, 0.43, 0.62); ejection fraction, 61% ± 5%, 57% ± 5%, 58% ± 4%, and 56% ± 8%, respectively (P = 0.01, 0.11, 0.06); peak ejection rate, 481 ± 73 mL/s, 425 ± 62 mL/s, 434 ± 67 mL/s, and 381 ± 86 mL/s, respectively (P = 0.03, 0.04, 0.01); peak filling rate, 555 ± 80 mL/s, 480 ± 70 mL/s, 500 ± 70 mL/s, and 438 ± 108 mL/s, respectively (P= 0.007, 0.05, 0.004); and myocardial mass, 137 ± 26 g, 141 ± 25 g, 141 ± 23 g, and 130 ± 31 g, respectively (P = 0.62, 0.54, 0.99).
Using a separate reference scan and high acceleration factors up to R = 6, single-shot real-time cardiac imaging offers adequate temporal and spatial resolution for accurate assessment of global left ventricular function in free breathing with short examination times.
本研究旨在评估在 3T 下使用自由呼吸单次实时电影成像技术提高空间分辨率的心脏功能成像。本研究特别强调了并行成像技术的影响。
使用 GRAPPA 和改良 SENSE 重建技术,分别使用集成和单独的参考扫描以及 TGRAPPA 和 TSENSE,采集梯度回波体模图像。在体内测量中,对 GRAPPA 重建的集成和单独参考扫描以及使用平衡稳态自由进动协议的 TGRAPPA 进行了评估。对 20 名志愿者进行了三个临床协议(rtLRInt[Tres=51.3 毫秒;体素,2.5×5.0×10mm³]、rtMRSep[Tres=48.8 毫秒;体素,1.9×3.1×10mm³]和 rtHRSep[Tres=48.3 毫秒;体素,1.6×2.6×10mm³])的研究,使用内部和单独的参考扫描进行 GRAPPA 重建。对左心室的舒张末期容积、收缩末期容积、射血分数、峰值射血率、峰值充盈率和心肌质量进行评估,并与心电图触发的分段读出电影协议进行比较,后者用作参考标准。所有研究均在 3T 下进行。
体模和体内数据表明,GRAPPA 重建与单独参考扫描的结合提供了图像质量以及时空分辨率的最佳折衷。标准参考值(rtLRInt、rtMRSep 和 rtHRSep)的舒张末期容积、收缩末期容积、射血分数、峰值射血率、峰值充盈率和心肌质量的功能值(P 值)分别为 141±24ml、138±21ml、138±19ml、128±33ml 和 137±26g、141±25g、141±23g、130±31g(P=0.7、0.7、0.4;P=0.23、0.43、0.62)。
使用单独的参考扫描和高达 R=6 的高加速因子,单次实时心脏成像在自由呼吸时提供了足够的时间和空间分辨率,可准确评估左心室整体功能,检查时间短。
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