优化屏气和自由呼吸的人体肺部三维超短回波时间无造影剂磁共振成像评估。
Evaluation of optimized breath-hold and free-breathing 3D ultrashort echo time contrast agent-free MRI of the human lung.
作者信息
Gai Neville D, Malayeri Ashkan, Agarwal Harsh, Evers Robert, Bluemke David
机构信息
Radiology and Imaging Sciences, Clinical Center, National Institutes of Health, Bethesda, Maryland, USA.
Philips Research N.A., Briarcliff Manor, New York, USA.
出版信息
J Magn Reson Imaging. 2016 May;43(5):1230-8. doi: 10.1002/jmri.25073. Epub 2015 Oct 13.
PURPOSE
To evaluate an optimized stack of radials ultrashort echo time (UTE) 3D magnetic resonance imaging (MRI) sequence for breath-hold and free-breathing imaging of the human lung.
MATERIALS AND METHODS
A 3D stack of ultrashort echo time radials trajectory was optimized for coronal and axial lower-resolution breath-hold and higher-resolution free-breathing scans using Bloch simulations. The sequence was evaluated in 10 volunteers, without the use of contrast agents. Signal-to-noise ratio (SNR) mean and 95% confidence interval (CI) were determined from separate signal and noise images in a semiautomated fashion. The four scanning schemes were evaluated for significant differences in image quality using Student's t-test. Ten clinical patients were scanned with the sequence and findings were compared with concomitant computed tomography (CT) in nine patients. Breath-hold 3D spokes images were compared with 3D stack of radials in five volunteers. A Mann-Whitney U-test was performed to test significance in both cases.
RESULTS
Breath-hold imaging of the entire lung in volunteers was performed with SNR (mean = 42.5 [CI]: 35.5-49.5; mean = 34.3 [CI]: 28.6-40) in lung parenchyma for coronal and axial scans, respectively, which can be used as a quick scout scan. Longer respiratory triggered free-breathing scan enabled high-resolution UTE scanning with mean SNR of 14.2 ([CI]: 12.9-15.5) and 9.2 ([CI]: 8.2-10.2) for coronal and axial scans, respectively. Axial free-breathing scans showed significantly higher image quality (P = 0.008) than the three other scanning schemes. The mean score for comparison with CT was 1.67 (score 0: n = 0; 1: n = 3; 2: n = 6). There was no significant difference between CT and MRI (P = 0.25). 3D stack of radials images were significantly better than 3D spokes images (P < 0.001).
CONCLUSION
The optimized 3D stack of radials trajectory was shown to provide high-quality MR images of the lung parenchyma without the use of MRI contrast agents. The sequence may offer the possibility of breath-hold imaging and provides greater flexibility in trading off slice thickness and parallel imaging for scan time.
目的
评估一种优化的径向超短回波时间(UTE)三维磁共振成像(MRI)序列,用于人体肺部屏气和自由呼吸成像。
材料与方法
使用布洛赫模拟,对超短回波时间径向轨迹的三维序列进行优化,用于冠状面和轴向下分辨率屏气扫描以及高分辨率自由呼吸扫描。该序列在10名志愿者中进行评估,不使用造影剂。以半自动方式从单独的信号和噪声图像中确定信噪比(SNR)均值和95%置信区间(CI)。使用学生t检验评估四种扫描方案在图像质量上的显著差异。对10名临床患者进行该序列扫描,并将结果与9名患者的同期计算机断层扫描(CT)进行比较。在5名志愿者中比较屏气三维辐条图像和三维径向序列图像。两种情况均进行曼-惠特尼U检验以检验显著性。
结果
志愿者肺部的屏气成像中,冠状面和轴面扫描肺实质的SNR分别为(均值 = 42.5 [CI]:35.5 - 49.5;均值 = 34.3 [CI]:28.6 - 40),可作为快速预扫描。更长的呼吸触发自由呼吸扫描实现了高分辨率UTE扫描,冠状面和轴面扫描的平均SNR分别为14.2([CI]:12.9 - 15.5)和9.2([CI]:8.2 - 10.2)。轴面自由呼吸扫描的图像质量显著高于其他三种扫描方案(P = 0.008)。与CT比较的平均评分为1.67(评分0:n = 0;1:n = 3;2:n = 6)。CT和MRI之间无显著差异(P = 0.25)。三维径向序列图像显著优于三维辐条图像(P < 0.001)。
结论
优化的三维径向轨迹序列在不使用MRI造影剂的情况下,能够提供高质量的肺实质MR图像。该序列可能提供屏气成像的可能性,并在扫描时间上,在层厚和平行成像之间进行权衡时提供更大的灵活性。
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