使用磁化准备的RUFIS的近无声无失真扩散加权成像
Near-silent distortionless DWI using magnetization-prepared RUFIS.
作者信息
Yuan Jianmin, Hu Yuxin, Menini Anne, Sandino Christopher M, Sandberg Jesse, Sheth Vipul, Moran Catherine J, Alley Marcus, Lustig Michael, Hargreaves Brian, Vasanawala Shreyas
机构信息
Department of Radiology, Stanford University, Stanford, California.
Department of Electrical Engineering, Stanford University, Stanford, California.
出版信息
Magn Reson Med. 2020 Jul;84(1):170-181. doi: 10.1002/mrm.28106. Epub 2019 Nov 29.
PURPOSE
To develop a near-silent and distortionless DWI (sd-DWI) sequence using magnetization-prepared rotating ultrafast imaging sequence.
METHODS
A rotating ultrafast imaging sequence was modified with driven-equilibrium diffusion preparation, including eddy-current compensation methods. To compensate for the T recovery during readout, a phase-cycling method was used. Both compensation methods were validated in phantoms. The optimized sequence was compared with an EPI diffusion sequence for image distortion, contrast, ADC, and acoustic noise level in phantoms. The sequence was evaluated in 1 brain volunteer, 5 prostate volunteers, and 10 pediatric patients with joint diseases.
RESULTS
Combination of several eddy-current compensation methods reduced the artifact to an acceptable level. Phase cycling reduced T recovery contamination during readout. In phantom scans, the optimized sequence generated similar image contrast to the EPI diffusion sequence, and ADC maps between the sequences were comparable; sd-DWI had significantly lower acoustic noise (P < .05). In vivo brain scan showed reduced image distortion in sd-DWI compared with the EPI diffusion, although residual motion artifact remains due to brain pulsation. The prostate scans showed that sd-DWI can provide similar ADC compared with EPI diffusion, with no image distortion. Patient scans showed that the sequence can clearly depict joint lesions.
CONCLUSION
An sd-DWI sequence was developed and optimized. Compared with conventional EPI diffusion, sd-DWI provided similar diffusion contrast, accurate ADC measurement, improved image quality, and minimal ambient scanning noise. The sequence showed the ability to obtain in vivo diffusion contrast in relatively motion-free body regions, such as prostate and joint.
目的
使用磁化准备的旋转超快成像序列开发一种近乎静音且无失真的扩散加权成像(sd-DWI)序列。
方法
对旋转超快成像序列进行修改,采用驱动平衡扩散准备,包括涡流补偿方法。为补偿读出期间的T恢复,使用了相位循环方法。两种补偿方法均在体模中得到验证。将优化后的序列与回波平面成像(EPI)扩散序列在体模的图像失真、对比度、表观扩散系数(ADC)和声学噪声水平方面进行比较。该序列在1名脑部志愿者、5名前列腺志愿者和10名患有关节疾病的儿科患者中进行了评估。
结果
几种涡流补偿方法的组合将伪影降低到了可接受的水平。相位循环减少了读出期间T恢复的污染。在体模扫描中,优化后的序列产生的图像对比度与EPI扩散序列相似,序列间的ADC图具有可比性;sd-DWI的声学噪声显著更低(P < 0.05)。在体内脑部扫描中,与EPI扩散相比,sd-DWI的图像失真减少,尽管由于脑部搏动仍存在残余运动伪影。前列腺扫描显示,与EPI扩散相比,sd-DWI可提供相似的ADC,且无图像失真。患者扫描显示该序列能够清晰描绘关节病变。
结论
开发并优化了一种sd-DWI序列。与传统的EPI扩散相比,sd-DWI提供了相似的扩散对比度、准确的ADC测量、改善的图像质量以及最小的周围扫描噪声。该序列显示出在相对无运动的身体区域(如前列腺和关节)获得体内扩散对比度的能力。
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