7T场强下的超短回波时间和零回波时间磁共振成像
Ultrashort echo time and zero echo time MRI at 7T.
作者信息
Larson Peder E Z, Han Misung, Krug Roland, Jakary Angela, Nelson Sarah J, Vigneron Daniel B, Henry Roland G, McKinnon Graeme, Kelley Douglas A C
机构信息
Department of Radiology and Biomedical Imaging, University of California - San Francisco, Byers Hall, Rm 102C, 1700 4th St, San Francisco, CA, 94158, USA.
UC Berkeley-UCSF Graduate Program in Bioengineering, University of California, Berkeley, CA, USA.
出版信息
MAGMA. 2016 Jun;29(3):359-70. doi: 10.1007/s10334-015-0509-0. Epub 2015 Dec 24.
OBJECTIVE
Zero echo time (ZTE) and ultrashort echo time (UTE) pulse sequences for MRI offer unique advantages of being able to detect signal from rapidly decaying short-T2 tissue components. In this paper, we applied 3D ZTE and UTE pulse sequences at 7T to assess differences between these methods.
MATERIALS AND METHODS
We matched the ZTE and UTE pulse sequences closely in terms of readout trajectories and image contrast. Our ZTE used the water- and fat-suppressed solid-state proton projection imaging method to fill the center of k-space. Images from healthy volunteers obtained at 7T were compared qualitatively, as well as with SNR and CNR measurements for various ultrashort, short, and long-T2 tissues.
RESULTS
We measured nearly identical contrast-to-noise and signal-to-noise ratios (CNR/SNR) in similar scan times between the two approaches for ultrashort, short, and long-T2 components in the brain, knee and ankle. In our protocol, we observed gradient fidelity artifacts in UTE, and our chosen flip angle and readout also resulted in shading artifacts in ZTE due to inadvertent spatial selectivity. These can be corrected by advanced reconstruction methods or with different chosen protocol parameters.
CONCLUSION
The applied ZTE and UTE pulse sequences achieved similar contrast and SNR efficiency for volumetric imaging of ultrashort-T2 components. Key differences include that ZTE is limited to volumetric imaging, but has substantially reduced acoustic noise levels during the scan. Meanwhile, UTE has higher acoustic noise levels and greater sensitivity to gradient fidelity, but offers more flexibility in image contrast and volume selection.
目的
磁共振成像(MRI)中的零回波时间(ZTE)和超短回波时间(UTE)脉冲序列具有独特优势,能够检测来自快速衰减的短T2组织成分的信号。在本文中,我们在7T场强下应用三维ZTE和UTE脉冲序列来评估这些方法之间的差异。
材料与方法
我们在读出轨迹和图像对比度方面对ZTE和UTE脉冲序列进行了紧密匹配。我们的ZTE采用水脂抑制固态质子投影成像方法来填充k空间中心。对7T场强下健康志愿者的图像进行了定性比较,并对各种超短、短和长T2组织进行了信噪比(SNR)和对比噪声比(CNR)测量。
结果
对于脑、膝和踝关节中的超短、短和长T2成分,我们在两种方法相似的扫描时间内测量到了几乎相同的对比噪声比和信噪比(CNR/SNR)。在我们的方案中,我们观察到UTE中存在梯度保真度伪影,并且由于无意的空间选择性,我们选择的翻转角和读出方式也导致了ZTE中的阴影伪影。这些可以通过先进的重建方法或选择不同的方案参数来校正。
结论
所应用的ZTE和UTE脉冲序列在超短T2成分的容积成像中实现了相似的对比度和SNR效率。关键差异包括ZTE仅限于容积成像,但在扫描过程中声学噪声水平大幅降低。同时,UTE具有较高的声学噪声水平,对梯度保真度更敏感,但在图像对比度和容积选择方面提供了更大的灵活性。
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