利用多峰重建实现IDEAL化学位移脂肪-水分离的脂肪抑制改进:在快速自旋回波成像中的应用
Improved fat suppression using multipeak reconstruction for IDEAL chemical shift fat-water separation: application with fast spin echo imaging.
作者信息
Kijowski Richard, Woods Michael A, Lee Kenneth S, Takimi Kuya, Yu Huanzhou, Shimakawa Ann, Brittain Jean H, Reeder Scott B
机构信息
Department of Radiology, University of Wisconsin, Madison, Wisconsin, USA.
出版信息
J Magn Reson Imaging. 2009 Feb;29(2):436-42. doi: 10.1002/jmri.21664.
PURPOSE
To evaluate and quantify improvements in the quality of fat suppression for fast spin-echo imaging of the knee using multipeak fat spectral modeling and IDEAL fat-water separation.
MATERIALS AND METHODS
T(1)-weighted and T(2)-weighted fast spin-echo sequences with IDEAL fat-water separation and two frequency-selective fat-saturation methods (fat-selective saturation and fat-selective partial inversion) were performed on 10 knees of five asymptomatic volunteers. The IDEAL images were reconstructed using a conventional single-peak method and precalibrated and self-calibrated multipeak methods that more accurately model the NMR spectrum of fat. The signal-to-noise ratio (SNR) was measured in various tissues for all sequences. Student t-tests were used to compare SNR values.
RESULTS
Precalibrated and self-calibrated multipeak IDEAL had significantly greater suppression of signal (P < 0.05) within subcutaneous fat and bone marrow than fat-selective saturation, fat-selective partial inversion, and single-peak IDEAL for both T(1)-weighted and T(2)-weighted fast spin-echo sequences. For T(1)-weighted fast spin-echo sequences, the improvement in the suppression of signal within subcutaneous fat and bone marrow for multipeak IDEAL ranged between 65% when compared to fat-selective partial inversion to 86% when compared to fat-selectivesaturation. For T2-weighted fast spin-echo sequences, the improvement for multipeak IDEAL ranged between 21% when compared to fat-selective partial inversion to 81% when compared to fat-selective saturation.
CONCLUSION
Multipeak IDEAL fat-water separation provides improved fat suppression for T(1)-weighted and T(2)-weighted fast spin-echo imaging of the knee when compared to single-peak IDEAL and two widely used frequency-selected fat-saturation methods.
目的
使用多峰脂肪谱模型和IDEAL脂肪-水分离技术评估并量化膝关节快速自旋回波成像中脂肪抑制质量的改善情况。
材料与方法
对5名无症状志愿者的10个膝关节进行了采用IDEAL脂肪-水分离技术的T1加权和T2加权快速自旋回波序列以及两种频率选择性脂肪饱和方法(脂肪选择性饱和和脂肪选择性部分反转)检查。IDEAL图像采用传统单峰方法以及更精确模拟脂肪核磁共振谱的预校准和自校准多峰方法进行重建。测量所有序列在各种组织中的信噪比(SNR)。使用学生t检验比较SNR值。
结果
对于T1加权和T2加权快速自旋回波序列,预校准和自校准多峰IDEAL在皮下脂肪和骨髓内的信号抑制效果(P < 0.05)显著优于脂肪选择性饱和、脂肪选择性部分反转和单峰IDEAL。对于T1加权快速自旋回波序列,多峰IDEAL在皮下脂肪和骨髓内信号抑制的改善程度,与脂肪选择性部分反转相比为65%,与脂肪选择性饱和相比为86%。对于T2加权快速自旋回波序列,多峰IDEAL的改善程度,与脂肪选择性部分反转相比为21%,与脂肪选择性饱和相比为81%。
结论
与单峰IDEAL和两种广泛使用的频率选择性脂肪饱和方法相比,多峰IDEAL脂肪-水分离技术在膝关节T1加权和T2加权快速自旋回波成像中能提供更好的脂肪抑制效果。
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