使用带离共振校正的 DESPOT2 的快速且易于访问的 T2 映射及其在 3D 前列腺成像中的应用。
Fast and accessible T2 mapping using off-resonance corrected DESPOT2 with application to 3D prostate.
机构信息
Biomedical Imaging Center, Pontificia Universidad Católica de Chile, Santiago, Chile; Department of Electrical Engineering, Pontificia Universidad Católica de Chile, Santiago, Chile; Millennium Institute for Intelligent Healthcare Engineering, Santiago, Chile.
Millennium Institute for Intelligent Healthcare Engineering, Santiago, Chile; School of Biomedical Engineering and Imaging Sciences, King's College London, London, United Kingdom; Institute for Biological and Medical Engineering, Pontificia Universidad Católica de Chile, Santiago, Chile.
出版信息
Magn Reson Imaging. 2024 Jun;109:227-237. doi: 10.1016/j.mri.2024.03.018. Epub 2024 Mar 19.
PURPOSE
Most T1 and T2 mapping take long acquisitions or needs specialized sequences not widely accessible on clinical scanners. An available solution is DESPOT1/T2 (Driven equilibrium single pulse observation of T1/T2). DESPOT1/T2 uses Spoiled gradient-echo (SPGR) and balanced Steady-State Free Precession (bSSFP) sequences, offering an accessible and reliable way for 3D accelerated T1/T2 mapping. However, bSSFP is prone to off-resonance artifacts, limiting the application of DESPOT2 in regions with high susceptibility contrasts, like the prostate. Our proposal, DESPO+, employs the full bSSFP and SPGR models with a dictionary-based method to reconstruct 3D T1/T2 maps in the prostate region without off-resonance banding.
METHODS
DESPO+ modifies the bSSFP acquisition of the original variable flip angle DESPOT2. DESPO+ uses variable repetition and echo times, employing a dictionary-based method of the full bSSFP and SPGR models to reconstruct T1, T2, and Proton Density (PD) simultaneously. The proposed DESPO+ method underwent testing through simulations, T1/T2 phantoms, and on fourteen healthy subjects.
RESULTS
The results reveal a significant reduction in T2 map banding artifacts compared to the original DESPOT2 method. DESPO+ approach reduced T2 errors by up to seven times compared to DESPOT2 in simulations and phantom experiments. We also synthesized in-vivo T1-weighted/T2-weighted images from the acquired maps using a spin-echo model to verify the map's quality when lacking a reference. For in-vivo imaging, the synthesized images closely resemble those from the clinical MRI protocol, reducing scan time by around 50% compared to traditional spin-echo T1-weighted/T2-weighted acquisitions.
CONCLUSION
DESPO+ provides an off-resonance insensitive and clinically available solution, enabling high-resolution 3D T1/T2 mapping and synthesized T1-weighted/T2-weighted images for the entire prostate, all achieved within a short scan time of 3.6 min, similar to DESPOT1/T2.
目的
大多数 T1 和 T2 映射需要长时间采集或需要在临床扫描仪上无法广泛获得的专门序列。一种可行的解决方案是 DESPOT1/T2(驱动平衡单脉冲观察 T1/T2)。DESPOT1/T2 使用扰相梯度回波(SPGR)和平衡稳态自由进动(bSSFP)序列,为 3D 加速 T1/T2 映射提供了一种易于访问且可靠的方法。然而,bSSFP 容易受到离频伪影的影响,这限制了 DESPOT2 在具有高磁敏感性对比的区域(如前列腺)中的应用。我们的提案 DESPO+ 采用基于字典的方法,利用完整的 bSSFP 和 SPGR 模型来重建前列腺区域无离频带的 3D T1/T2 图谱。
方法
DESPO+修改了原始可变翻转角 DESPOT2 的 bSSFP 采集。DESPO+ 使用可变重复和回波时间,采用基于字典的完整 bSSFP 和 SPGR 模型方法来同时重建 T1、T2 和质子密度(PD)。所提出的 DESPO+ 方法通过模拟、T1/T2 体模和 14 名健康受试者进行了测试。
结果
结果表明,与原始 DESPOT2 方法相比,T2 图谱带伪影明显减少。DESPO+ 方法在模拟和体模实验中,与 DESPOT2 相比,T2 误差减少了多达七倍。我们还使用自旋回波模型从采集的图谱中合成了体内 T1 加权/T2 加权图像,以验证在缺乏参考的情况下图谱的质量。对于体内成像,合成图像与临床 MRI 协议非常相似,与传统的自旋回波 T1 加权/T2 加权采集相比,扫描时间减少了约 50%。
结论
DESPO+ 提供了一种抗离频干扰且在临床上可用的解决方案,可实现整个前列腺的高分辨率 3D T1/T2 映射和合成 T1 加权/T2 加权图像,扫描时间仅为 3.6 分钟,与 DESPOT1/T2 相似。
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